CN115434089B

CN115434089B - Device for solving uneven dissolution and dispersion of dye in dip dyeing of plush fabric

Info

Publication number: CN115434089B
Application number: CN202211014124.6A
Authority: CN
Inventors: 封伟良
Original assignee: Zhongshan Yonglilai Clothing Accessories Co ltd
Current assignee: Zhongshan Yonglilai Clothing Accessories Co ltd
Priority date: 2022-08-23
Filing date: 2022-08-23
Publication date: 2024-02-02
Anticipated expiration: 2042-08-23
Also published as: CN115434089A

Abstract

The invention relates to the technical field of application of dip dyeing technology, in particular to a device for solving the problem that dye is dissolved and dispersed unevenly during dip dyeing of plush fabric, which comprises a dyeing tank main body, wherein a water outlet is formed in the bottom of the left side of the dyeing tank main body, a dip dyeing cabin is arranged in the dyeing tank main body, a screen interlayer is arranged below the dip dyeing cabin, a reciprocating mixing and stirring mechanism is arranged below the screen interlayer, after a helical impeller I rotates and is matched with the reciprocating motion of a reciprocating diaphragm, the screen interlayer is used for isolating and collecting precipitated pigment in the dye in the dyeing tank main body, the precipitated pigment is reduced to fall into the bottommost part of the dyeing tank main body, and meanwhile, the reciprocating diaphragm and the helical impeller I are convenient to perform reciprocating stirring and upward blowing under the matching effect, so that the dye in the dyeing tank main body can be dispersed in the dyeing tank main body better, and the dye is distributed more evenly to promote the dip dyeing effect of the dip dyeing plush fabric.

Description

Device for solving uneven dissolution and dispersion of dye in dip dyeing of plush fabric

Technical Field

The invention relates to the technical field of application of dip dyeing technology, in particular to a device for solving the problem of uneven dissolution and dispersion of dye in dip dyeing of plush fabric.

Background

At present, the invention patent number in China is CN112604578A, and the name is: in the prior art of a stirring device capable of preventing dye precipitation from causing uneven dye liquor, in the existing dye preparation process, dye powder is usually placed in clear water, and is stirred manually by using a stirring rod, so that the efficiency is slow, the stirring is insufficient, the problem that the body health of workers is seriously affected by the pungent smell of the dye is solved, and the problems that the dye can be uniformly mixed to a certain extent by using a semi-automatic stirring device are solved, but the dye cannot be placed for a long time, if the dye needs to be placed for a certain time for a certain special reason, the dye can be deposited on the bottom of a barrel after being placed for a long time, and the existing stirring device only can scatter scattered powder, so that the precipitated dye is difficult to scatter, and a series of bad phenomena are generated when the dye is uniformly mixed, and the spinning cloth is dyed;

the stirring rod mechanism which is linked with the turntable partition plate arranged at the inlet of the dye barrel is used for fully stirring the dye powder, so that the effect of uniformly mixing the dye is achieved, and the efficiency and quality of the spinning cloth during dyeing are improved;

through the first clamp plate and the second clamp plate that the dyestuff bucket bottom set up under gear pivoted drive with the dyestuff precipitate crushing that exists in the bottom, the intensive mixing of dyestuff of being convenient for reaches the effect that makes dyestuff misce bene, has improved efficiency and the quality of spinning cloth when dyeing.

The existing device solves the problems of automatic stirring and full mixing of the dye, but has the defects that the effect in the specific use process is still insufficient, the dissolving effect of the device on the dye is poor, the use range is more unilateral, and the characteristics of some special fabrics are difficult to consider and combine, for example, when some plush fabrics are dip-dyed, the general dip-dyeing device is difficult to realize the dip-dyeing effect because of longer plush, so that the situation that the plush knots and the plush fall off in the dip-dyeing process exists, and the subsequent utilization efficiency of the dye is influenced because the fallen plush always exists in the dye;

in view of this, the present invention provides a device for solving the problem of uneven dissolution and dispersion of dye at the time of dip dyeing of plush fabric.

Disclosure of Invention

In order to solve the technical problems, the technical scheme solves the technical problems that the dye is not sufficiently dissolved and the use surface is relatively one-sided in the background art.

In order to achieve the above purpose, the invention adopts the following technical scheme: the device for solving the problem of uneven dye dissolution and dispersion during the dip dyeing of the plush fabric comprises a dyeing tank main body, wherein a water outlet is formed in the bottom of the left side of the dyeing tank main body, the water outlet is convenient for a user to regularly discharge dip dyeing water after the use in the dyeing tank main body, a dip dyeing cabin is arranged in the dyeing tank main body, the whole dip dyeing cabin is hollow, the initial state of the dip dyeing cabin is completely immersed below the dip dyeing liquid surface in the dyeing tank main body, a screen interlayer is arranged below the dip dyeing cabin, a reciprocating mixing and stirring mechanism is arranged below the screen interlayer, central gushing mechanisms are symmetrically arranged at the front and back sides of the lower part of the reciprocating mixing and stirring mechanism, a timing lifting mechanism is arranged above the dip dyeing cabin and on the front and back inner walls of the dyeing tank main body, and an auxiliary protection mechanism is arranged on the front side of the dyeing tank main body;

the reciprocating mixing mechanism comprises: the dyeing pond comprises a driving belt pulley, a linkage belt, a belt follower block, a reciprocating diaphragm, a helical impeller I and a helical impeller II, wherein the driving belt pulley is arranged at the bottom of the dyeing pond body, the linkage belt is arranged outside the driving belt pulley, the linkage belt is in transmission connection with the driving belt pulley, the belt follower block is fixedly arranged outside the right front side of the driving belt pulley, the reciprocating diaphragm is arranged above the belt follower block, the helical impeller I is uniformly arranged on the upper surface of the reciprocating diaphragm, the helical impeller I considers the aesthetic property and rationality of drawing to be only one group in the illustration, but in the specific use process, a plurality of groups of the helical impellers II are uniformly arranged on the upper surface of the reciprocating diaphragm, the helical impeller II is rotationally connected to the right side of the bottom of the helical impeller I and is formed by an impeller I at the upper end and a conical gear rod II at the lower end, the helical impeller II is formed by an impeller II at the right end and a conical gear rod II at the left end, and the conical gear rod II is meshed with the conical gear rod I.

Preferably, the screen interlayer is fixedly arranged on the inner wall close to the inner bottom surface of the dyeing pond main body, and the mesh number of the screen interlayer is not less than two hundred meshes.

Preferably, the driving belt pulleys are symmetrically distributed on the inner bottom surface of the dyeing tank main body, the bottoms of the driving belt pulleys are rotationally connected to the bottom surface of the dyeing tank main body, the driving belt pulleys are two groups which are symmetrically arranged left and right, and the bottoms of any group of driving belt pulleys can be in transmission connection with the servo motor.

Preferably, the front side and the rear side of the reciprocating transverse plate are in sliding connection with the front inner wall and the rear inner wall of the dyeing pool main body, and the upper end of the belt follow-up block is in sliding connection with the inside of the reciprocating transverse plate.

Preferably, the central gushing mechanism includes: follow-up push block, spring piston push rod, air cabin, intake pipe, centre cabin and gushing out the mouth board, the inboard left end face fixedly connected with follow-up push block of reciprocal diaphragm, and the leading flank butt of follow-up push block has spring piston push rod, and spring piston push rod front end is located the bottom surface inside of dyeing pond main part and is provided with the air cabin, and the dorsal part intercommunication of air cabin has the intake pipe, and the internally mounted of this intake pipe has the check valve, the front end of spring piston push rod and the inside looks adaptation of air cabin, the front end intercommunication of air cabin has the centre cabin, and this centre cabin is located the central point of dyeing pond main part bottom surface, and the top fixed mounting of centre cabin has a gushing out the mouth board, and this gushing out the mouth board and is located the central point of screen cloth interlayer bottom surface, in addition installs the check valve in the position of air cabin and centre cabin intercommunication.

Preferably, the follow-up push block is positioned at the back end of the spring piston push rod at the bottom surface of the dyeing pond main body, and one surface of the follow-up push block, which is close to the back end of the spring piston push rod, is an inclined surface.

Preferably, the timing lifting mechanism comprises: the automatic dyeing machine comprises a horizontal rack, a timing cabin, a ratchet disc, an electric control telescopic rod, a reel, a traction rope, a cross groove, a tenon and a fixed lug, wherein the horizontal rack is fixedly connected to the upper surface of the back side of the reciprocating transverse plate, the horizontal rack is located on the inner wall of the back side of a dyeing pool main body, the timing cabin is arranged on the inner wall of the dyeing pool main body above the horizontal rack, the timing controller is arranged in the timing cabin, the ratchet disc is arranged on the front side of the timing cabin and can be meshed with the horizontal rack for transmission, the electric control telescopic rod is arranged on the back side of the ratchet disc, the tenon is fixedly connected to the front side of the ratchet disc, the reel is arranged on the front side of the reel, the cross groove is formed in a position close to the tenon, the cross groove is mutually matched with the tenon, the reel is rotatably connected to the inner wall of the back side of the dyeing pool main body, the traction rope is wound on the outer side of the reel, the traction rope is fixedly connected with the fixed lug, and the fixed lug is fixedly arranged on the front side and the back side of the dyeing cabin.

Preferably, the front output end of the electric control telescopic rod is rotationally connected with the center position of the back side surface of the ratchet plate, and the back side end of the electric control telescopic rod is fixedly arranged in the timing cabin.

Preferably, the auxiliary protection mechanism includes: auxiliary pedal, spring spout, slip push bar, limit groove and follow-up strip, the front side surface of dyeing pond main part is bilateral symmetry and is provided with the spring spout, and the inside sliding connection of spring spout has auxiliary pedal to auxiliary pedal's bottom articulates has the slip push bar, the limit groove has been seted up to the leading flank of dyeing pond main part, the lower extreme sliding connection of slip push bar is in the inside of limit groove, the leading flank fixedly connected with follow-up strip of slip push bar, the upper end fixedly connected with protection apron of follow-up strip, the bottom sliding connection of this protection apron in dyeing pond main part upper surface.

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

(1) According to the invention, the reciprocating stirring mechanism is arranged, after the helical impeller I rotates and is matched with the reciprocating motion of the reciprocating transverse plate, so that the upward blowing and stirring effects are continuously carried out at the bottom of the screen interlayer, and the mesh aperture of the screen interlayer is about 0.07um as the mesh number of the screen interlayer is not less than two hundred meshes, and the particle size of particles in general dye is 0.05-0.5 um, so that the screen interlayer is used for isolating and collecting the precipitated pigment in the dye in the dyeing tank main body, the precipitated pigment is reduced to fall into the bottommost part of the dyeing tank main body, and meanwhile, the reciprocating stirring and upward blowing of the precipitated pigment are facilitated under the matching effect of the reciprocating transverse plate and the helical impeller I, so that the dye in the dyeing tank main body can be better dispersed in the dyeing tank main body, and the dye is more uniformly distributed so as to promote the dip dyeing effect of dip dyeing plush fabrics;

(2) According to the invention, the dip dyeing cabin is arranged, because the whole dip dyeing cabin is hollow, and the initial state of the dip dyeing cabin is completely immersed below the dip dyeing liquid surface in the dyeing tank main body, when the dip dyeing cabin is used, a user can place the plush fabric in the dip dyeing cabin for dip dyeing, the plush fabric can be effectively prevented from being scattered in the dyeing tank main body in a messy manner through the dip dyeing cabin, and some fallen plush can be reduced from sinking into the bottom of the dyeing tank main body, and the dip dyeing cabin is arranged so that when the user lifts the plush fabric through the dip dyeing cabin, the plush fabric can be synchronously fished out from the dip dyeing tank in the dyeing tank main body, so that the subsequent utilization rate of the dye is improved;

(3) According to the dyeing pond, the central gushing mechanism is arranged, the interior of the dyeing pond main body can be continuously blown through the spring piston push rod in the reciprocating process of the reciprocating transverse plate to form the bubble area, the formed bubble area is further assisted to the effect of dispersing dye of the reciprocating stirring mechanism, meanwhile, the dye liquid in the dyeing pond main body is driven to flexibly shake in a reciprocating manner through the gushing of bubbles, so that the fabric can be assisted to fully dip so as to improve the effect of the plush dip, and meanwhile, the characteristics of the plush fabric are combined, and the dropping and knotting of the fabric can be reduced through the flexible shaking;

(4) According to the invention, the timing lifting mechanism is arranged, when the reciprocating transverse plate drives the horizontal rack to reciprocate, the ratchet disc is driven to rotate when the horizontal rack moves to one side in a unidirectional manner, the cross groove is driven to synchronously rotate, the timing controller is set by a user in advance to realize the effect of timing dip dyeing of fabrics, after the dip dyeing duration is finished, the dip dyeing cabin and the plush fabric in the dip dyeing cabin are gradually driven to gradually move upwards to the liquid level of dye through the winding of the traction rope after the cross groove rotates, so that the automatic fishing of the plush fabric is realized, and the labor intensity of staff is reduced;

(5) The auxiliary protection mechanism is arranged, so that after a user leaves from the auxiliary pedal, the auxiliary pedal can automatically reset under the action of the spring sliding groove, the protection cover plate is driven to automatically reset, and after the protection cover plate resets, the dye in the dyeing tank body is automatically covered above the dyeing tank body, thereby avoiding influence on the dyeing effect caused by falling of the dye into dust and impurities in the dyeing tank body in the dyeing process, and simultaneously, the extra damage of smell generated by the dye to a human body can be furthest reduced under the covering action of the protection cover plate.

Drawings

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

FIG. 2 is a schematic view of the internal front view of the present invention;

FIG. 3 is a schematic side view in cross-section of the present invention;

FIG. 4 is a schematic view of a partially-displayed perspective of the auxiliary protection mechanism of the present invention;

FIG. 5 is a schematic view of a front view of a cross-sectional perspective structure of the present invention;

FIG. 6 is a schematic view of a partial top perspective view of the bottom of the dye vat body of the present invention;

FIG. 7 is a partially enlarged perspective view of the area A of FIG. 6 according to the present invention;

FIG. 8 is a schematic view of a partial side sectional perspective of a center surge mechanism of the present invention;

FIG. 9 is a schematic view of a partial front view of a timing lift mechanism of the present invention;

FIG. 10 is a schematic view of a side view partially showing a perspective of a timing lift mechanism of the present invention;

FIG. 11 is a schematic view of a partial side cross-section showing a perspective view of a timing lift mechanism of the present invention.

The reference numerals in the figures are:

1. a dye vat body; 11. a water outlet; 12. a dip dyeing cabin; 13. a screen interlayer;

2. a reciprocating mixing mechanism; 21. a drive pulley; 22. a linkage belt; 23. a belt follower; 24. a reciprocating cross plate; 25. a helical impeller I; 26. helical tooth impeller II;

3. a center gushing mechanism; 31. a follow-up pushing block; 32. a spring piston push rod; 33. an air chamber; 34. an air inlet pipe; 35. a central compartment; 36. a surge plate;

4. a timing lifting mechanism; 41. a horizontal rack; 42. a timing cabin; 43. a ratchet plate; 44. an electric control telescopic rod; 45. a reel; 46. a traction rope; 47. a cross groove; 48. inserting tenons; 49. a fixed ear;

5. an auxiliary protection mechanism; 51. an auxiliary pedal; 52. a spring chute; 53. sliding the push bar; 54. a limiting groove; 55. a follower bar; 56. and protecting the cover plate.

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.

Embodiment one of the invention

Referring to fig. 1 to 3 and 9 to 11, the device for solving the problem of uneven dye dissolution and dispersion during dip dyeing of plush fabric comprises a dyeing tank main body 1, a water outlet 11 is formed in the left bottom of the dyeing tank main body 1, a dip dyeing cabin 12 is arranged in the dyeing tank main body 1, a screen interlayer 13 is arranged below the dip dyeing cabin 12, the screen interlayer 13 is fixedly arranged on the inner wall close to the inner bottom surface of the dyeing tank main body 1, the mesh number of the screen interlayer 13 is not less than two hundred, a timing lifting mechanism 4 is arranged above the dip dyeing cabin 12 and on the front and rear inner walls of the dyeing tank main body 1, and the timing lifting mechanism 4 comprises: the automatic dyeing machine comprises a horizontal rack 41, a timing cabin 42, a ratchet disc 43, an electric control telescopic rod 44, a reel 45, a traction rope 46, a cross groove 47, a tenon 48 and a fixing lug 49, wherein the upper surface of the back side of the reciprocating transverse plate 24 is fixedly connected with the horizontal rack 41, the horizontal rack 41 is positioned on the inner wall of the back side of the dyeing pond main body 1, the timing cabin 42 is arranged on the inner wall of the dyeing pond main body 1 above the horizontal rack 41, a timing controller is arranged in the timing cabin 42 and is electrically connected with the electric control telescopic rod 44, namely, the driving of the electric control telescopic rod 44 can be controlled through the timing controller arranged in the timing cabin 42, the front side of the fixed time cabin 42 is provided with the ratchet disc 43, the ratchet disc 43 can be meshed and driven with the horizontal rack 41, the back side of the ratchet disc 43 is provided with the electric control telescopic rod 44, the front output end of the electric control telescopic rod 44 is in rotary connection with the central position of the back side of the ratchet disc 43, the back side end of the electric control telescopic rod 44 is fixedly arranged in the inside tenon 48 of the fixed time disc 42, the front side of the ratchet disc 43 is fixedly connected with the tenon 48, the front side of the tenon 48 is electrically connected with the electric control telescopic rod 45, the front side of the ratchet disc 45 is provided with the plug groove 48, the front side 45 is close to the inner wall of the reel 45 is fixedly connected with the traction rope 46, and is fixedly connected with the inner wall of the reel 46, and is fixedly connected with the inner side of the reel 45, and is fixedly connected with the front groove 46.

Working principle: in use, when the reciprocating diaphragm 24 moves reciprocally, the horizontal rack 41 on the inner upper surface of the reciprocating diaphragm is synchronously driven to displace synchronously, and as the horizontal rack 41 and the ratchet plate 43 are meshed with each other, the following is noted: the initial position of the ratchet disc 43 is not meshed with the horizontal rack 41, and the characteristics of the ratchet disc 43 are combined, namely when the horizontal rack 41 moves unidirectionally to one side, the ratchet disc 43 is driven to rotate, and when the horizontal rack 41 moves unidirectionally to the opposite side, the ratchet disc 43 is not driven to rotate, so that when the timing controller arranged in the timing cabin 42 is electrically connected with the electric control telescopic rod 44, namely, the timing controller arranged in the timing cabin 42 can automatically select the dip dyeing duration before a user dips a fabric, the driving of the electric control telescopic rod 44 can be realized through the timing controller, the ratchet disc 43 is driven to move forwards and prompt the inserting tenon 48 to automatically insert into the inside of the cross groove 47 after the driving of the electric control telescopic rod 44, at the moment, the horizontal rack 41 can be meshed with the ratchet disc 43, and the characteristics of the ratchet disc 43 are combined, and when the reciprocating transverse plate 24 drives the horizontal rack 41 to reciprocate to move unidirectionally to one side, the ratchet disc 43 is driven to rotate, and then the cross groove 47 is driven to rotate synchronously, the dyeing time is controlled by the timing controller, the time controller is arranged in the timing cabin 42, the time is set in advance, the dyeing time is selected by the user, the dyeing time is controlled in advance, the dyeing time is controlled to be controlled in advance, the dyeing time is controlled to reach the inner side of the fabric, the dyeing time is finished, and the dyeing time is gradually is reduced to the dyeing the fabric is finished, and the dyeing time is finished by the dyeing time is finished by the dyeing time 12, and the dyeing time is finished by the dyeing time and the dyeing time, and the dyeing time is finished.

Embodiment II of the invention

Referring to fig. 1 to 3, 6 and 7, the device for solving the problem of uneven dye dissolution and dispersion during dip dyeing of plush fabric comprises a dyeing tank main body 1, a water outlet 11 is formed in the left bottom of the dyeing tank main body 1, a dip dyeing cabin 12 is arranged in the dyeing tank main body 1, a screen interlayer 13 is arranged below the dip dyeing cabin 12, the screen interlayer 13 is fixedly arranged on the inner wall close to the inner bottom surface of the dyeing tank main body 1, the mesh number of the screen interlayer 13 is not less than two hundred meshes, a reciprocating mixing mechanism 2 is arranged below the screen interlayer 13, and the reciprocating mixing mechanism 2 comprises: the dyeing tank comprises a driving belt pulley 21, a linkage belt 22, a belt follower block 23, a reciprocating transverse plate 24, a first helical gear impeller 25 and a second helical gear impeller 26, wherein the driving belt pulley 21 is arranged at the bottom of the dyeing tank body 1, the driving belt pulley 21 is symmetrically distributed on the inner bottom surface of the dyeing tank body 1, the bottom of the driving belt pulley 21 is rotationally connected to the bottom surface of the dyeing tank body 1, the linkage belt 22 is arranged outside the driving belt pulley 21, the linkage belt 22 is in transmission connection with the driving belt pulley 21, the belt follower block 23 is fixedly arranged outside the right front side of the driving belt pulley 21, the reciprocating transverse plate 24 is arranged above the belt follower block 23, the front side and the rear side of the reciprocating transverse plate 24 are slidingly connected to the front inner wall and the rear inner wall of the dyeing tank body 1, the upper end of the belt follower block 23 is slidingly connected to the inner side of the reciprocating transverse plate 24, the helical gear impeller 25 is uniformly arranged on the upper surface of the reciprocating transverse plate 24, and the right side of the reciprocating transverse plate 24 is rotationally connected with the second helical gear impeller 26.

Working principle: when in use, after dye is filled in the dye vat body 1, at this time, after any group of driving belt pulleys 21 are driven by a servo motor to rotate, the driving belt pulleys 21 of the other group are synchronously driven to rotate by the rotation of the driving belt pulleys 21 and the transmission of the linkage belt 22, and a belt follower block 23 arranged outside the linkage belt 22 synchronously circulates along the linkage belt 22 in the transmission process, and because the upper end of the belt follower block 23 is slidingly connected in the reciprocating diaphragm 24, the reciprocating diaphragm 24 is driven to reciprocate left and right along the front and rear inner walls of the dye vat body 1 in the circulating process of the belt follower block 23, and a helical impeller II 26 positioned on the right side of the reciprocating diaphragm 24 at this time rotates in the dye vat in the reciprocating process of the reciprocating diaphragm 24, the first helical impeller 25 uniformly arranged on the upper surface of the reciprocating diaphragm 24 is driven to synchronously rotate by the second helical impeller 26, and then the first helical impeller 25 rotates and is matched with the reciprocating motion of the reciprocating diaphragm 24, so that the bottom of the screen interlayer 13 continuously carries out upward blowing and stirring effects, the mesh aperture of the screen interlayer 13 is about 0.07um because the mesh number of the screen interlayer 13 is not less than two hundred meshes, the particle size of particles in general dye is 0.05-0.5 um, the screen interlayer 13 is used for isolating and collecting the precipitated pigment in the dye vat body 1, the precipitated pigment is reduced to fall into the bottommost part of the dye vat body 1, and meanwhile, the reciprocating diaphragm 24 and the first helical impeller 25 are convenient to carry out reciprocating stirring and upward blowing under the matching effect, so that the dye in the dye vat body 1 can be better dispersed in the dye vat body 1, thereby enabling the dye to be distributed more uniformly so as to improve the dip-dyeing effect of dip-dyed plush fabric.

Embodiment III of the invention

Referring to fig. 1 to 11, the device for solving the problem of uneven dissolution and dispersion of dye during the dip dyeing of plush fabric comprises a dyeing tank main body 1, wherein a water outlet 11 is formed in the bottom of the left side of the dyeing tank main body 1, the water outlet 11 is convenient for a user to regularly discharge dip dyeing water after the use in the dyeing tank main body 1, a dip dyeing cabin 12 is arranged in the dyeing tank main body 1, the whole dip dyeing cabin 12 is hollow, the initial state of the dip dyeing cabin 12 is completely immersed below the dip dyeing liquid surface in the dyeing tank main body 1, the user can place plush fabric in the dip dyeing cabin 12 for dip dyeing, the dip dyeing cabin 12 can effectively prevent the plush fabric from being scattered in the dyeing tank main body 1 in a disordered manner, and can reduce the falling plush fabric from sinking into the bottom of the dyeing tank main body 1, the setting can synchronously salvage the plush fabric scattered in the dyeing tank main body 1 to the dip dyeing material in the dyeing tank main body 1 after the user lifts the dyeing cabin 12, thereby lifting the dye in the dyeing cabin, the subsequent use of the dip dyeing cabin 12 is completely immersed below the dip dyeing liquid surface in the dyeing tank main body 1, the dye is arranged in the bottom surface of the dyeing tank main body 1, the dye is more convenient to be more than the inner wall 13 of the dyeing tank 1, and the dye is more convenient to be placed in the inner wall of the dyeing tank 1, and the dye is more than the inner wall of the dye 1, and the dye layer is more convenient to be placed in the dye isolation layer 1, and the dye isolation layer is arranged in the inner layer of the dyeing tank 1;

the below of screen cloth interlayer 13 is provided with reciprocal mixing and stirring mechanism 2, and reciprocal mixing and stirring mechanism 2 includes: the bottom of the dyeing tank main body 1 is provided with a driving belt pulley 21, the driving belt pulley 21 is symmetrically distributed on the inner bottom surface of the dyeing tank main body 1 left and right, the bottom of the driving belt pulley 21 is rotationally connected with the bottom surface of the dyeing tank main body 1, the driving belt pulley 21 is in two groups which are symmetrically arranged left and right, the bottom of any group of driving belt pulley 21 can be in transmission connection with a servo motor, any group of driving belt pulley 21 is driven to rotate by the servo motor, the other group of driving belt pulley 21 is driven to synchronously rotate by the linkage belt 22, the linkage belt 22 is arranged outside the driving belt pulley 21, the linkage belt 22 is in transmission connection with the driving belt pulley 21, the belt follower block 23 is fixedly arranged outside the right front side of the driving belt pulley 21, the upper part of the belt follower block 23 is provided with a reciprocating diaphragm 24, the front side and the rear side of the reciprocating diaphragm 24 are in sliding connection with the front inner wall and the rear inner wall of the dyeing pond main body 1, the upper end of the belt follower block 23 is in sliding connection with the inside of the reciprocating diaphragm 24, the upper surface of the reciprocating diaphragm 24 is uniformly provided with a first bevel gear impeller 25, the first bevel gear impeller 25 is only shown as a group in the illustration in consideration of the aesthetic property and rationality of drawing, but a plurality of groups of the upper surface of the reciprocating diaphragm 24 can be uniformly arranged in the specific use process, the right side of the bottom of the first bevel gear impeller 25 is rotationally connected with a second bevel gear impeller 26 which is positioned on the right side of the reciprocating diaphragm 24, the first bevel gear impeller 25 is composed of a first impeller at the upper end and a second bevel gear rod at the lower end, the second bevel gear impeller 26 is composed of a second impeller at the right end and a second bevel gear rod at the left end, and the second bevel gear impeller is meshed with the first bevel gear rod;

the center gushing mechanism 3 is all provided with to the symmetry around being in the below of reciprocal muddy stirring mechanism 2, and center gushing mechanism 3 includes: the dyeing tank comprises a follow-up push block 31, a spring piston push rod 32, an air cabin 33, an air inlet pipe 34, a central cabin 35 and a surge port plate 36, wherein the follow-up push block 31 is fixedly connected to the left end face of the inner side of the reciprocating transverse plate 24, the follow-up push block 31 is positioned at the back side end of the spring piston push rod 32 on the bottom surface of the dyeing tank body 1, one side of the follow-up push block 31, which is close to the back side end of the spring piston push rod 32, is inclined, the front side of the follow-up push block 31 is abutted against the spring piston push rod 32, the front end of the spring piston push rod 32 is positioned in the bottom surface of the dyeing tank body 1, the air cabin 33 is communicated with the air inlet pipe 34, a one-way valve is arranged in the air inlet pipe 34, the front end of the spring piston push rod 32 is mutually matched with the air cabin 33, the front end of the air cabin 33 is communicated with the central cabin 35, the surge port plate 36 is fixedly arranged above the central cabin 35 on the central position of the bottom surface of the dyeing tank body 1, the surge port plate 36 is positioned at the central position of the bottom surface of the screen 13, and the one-way valve is also arranged at the position of the air cabin 33 communicated with the central cabin 35;

the inner wall is provided with timing lifting mechanism 4 around and above the dip dyeing cabin 12 and be located dyeing pond main part 1, and timing lifting mechanism 4 includes: the horizontal rack 41, the timing cabin 42, the ratchet plate 43, the electric control telescopic rod 44, the reel 45, the traction rope 46, the cross groove 47, the tenon 48 and the fixed lug 49 are fixedly connected with the upper surface of the back side of the reciprocating transverse plate 24, the horizontal rack 41 is positioned on the inner wall of the back side of the dyeing pool main body 1, the timing cabin 42 is arranged on the inner wall of the dyeing pool main body 1 above the horizontal rack 41, the timing controller is arranged in the timing cabin 42 and is electrically connected with the electric control telescopic rod 44, namely, the driving of the electric control telescopic rod 44 can be controlled through the timing controller arranged in the timing cabin 42, the ratchet plate 43 is arranged on the front side of the timing cabin 42, the ratchet plate 43 can be meshed with the horizontal rack 41 for transmission, the back side of the ratchet plate 43 is provided with an electric control telescopic rod 44, the front output end of the electric control telescopic rod 44 is in rotary connection with the central position of the back side surface of the ratchet plate 43, the back side end of the electric control telescopic rod 44 is fixedly arranged in the timing cabin 42, the front side surface of the ratchet plate 43 is fixedly connected with a tenon 48, the front side surface of the tenon 48 is provided with a reel 45, one side of the reel 45, which is close to the tenon 48, is provided with a cross groove 47, the cross groove 47 is mutually matched with the tenon 48, the reel 45 is rotatably connected to the inner wall of the back side of the dyeing tank main body 1, a traction rope 46 is wound outside the reel 45, the lower end of the traction rope 46 is fixedly connected with a fixing lug 49, and the fixing lug 49 is fixedly arranged on the front side and the rear side of the dyeing cabin 12;

the front side of dyeing pond main part 1 is provided with supplementary protection machanism 5, and supplementary protection machanism 5 includes: the dyeing pond comprises an auxiliary pedal 51, a spring sliding groove 52, a sliding push bar 53, a limiting groove 54 and a follow-up bar 55, wherein the spring sliding groove 52 is symmetrically arranged on the surface of the front side of the dyeing pond body 1 in a bilateral symmetry manner, the auxiliary pedal 51 is connected with the inside of the spring sliding groove 52 in a sliding manner, the sliding push bar 53 is hinged to the bottom of the auxiliary pedal 51, the limiting groove 54 is formed in the front side of the dyeing pond body 1, the lower end of the sliding push bar 53 is connected with the inside of the limiting groove 54 in a sliding manner, the follow-up bar 55 is fixedly connected with the front side of the sliding push bar 53, the upper end of the follow-up bar 55 is fixedly connected with a protection cover plate 56, and the bottom of the protection cover plate 56 is connected with the upper surface of the dyeing pond body 1 in a sliding manner.

The invention has the following complete using steps and complete working principle:

firstly, when a user uses the device to dip the plush fabric, the user stands on the upper surface of the front side of the auxiliary pedal 51 immediately after taking the fabric, the auxiliary pedal 51 is driven to move downwards along the track of the spring chute 52 by stepping, the lower end of the auxiliary pedal 51 is driven to slide away along the track of the limiting groove 54 after moving downwards, then the follow-up bar 55 is driven to synchronously move away from the left side and the right side symmetrically by the sliding push bar 53, so that the follow-up bar 55 drives the protective cover plate 56 at the upper end of the follow-up bar to move away from the left side, the protective cover plate 56 which is in sliding connection with the upper surface of the dyeing pond body 1 is automatically opened in a facing way, then a worker can put the fabric in the dyeing pond body 1 to start to dip, the operation when the device is used by the user is convenient to dip, meanwhile, the auxiliary pedal 51 can be automatically reset under the action of the spring chute 52 after the user leaves, thereby driving the protective cover plate 56 to automatically reset, the protective cover plate 56 can be automatically covered above the dyeing pond body 1 after the protective cover plate 56 is reset, the influence on the dyeing effect of the dye in the dyeing pond is reduced, and the effect of the dye can be reduced to the influence on the dyeing of the dye in the dyeing process of the inside of the dyeing pond is reduced at the same time;

then, the user can place the fabric in the dip dyeing cabin 12, the dip dyeing cabin 12 is hollow, the initial state of the dip dyeing cabin 12 is completely immersed below the dip dyeing liquid surface in the dye vat body 1, the user can place the plush fabric in the dip dyeing cabin 12 for dip dyeing when in use, the dip dyeing cabin 12 can effectively prevent the plush fabric from being scattered in the dye vat body 1 in a disordered manner, and can reduce the sinking of some fallen plush fabric into the bottom of the dye vat body 1, the arrangement is that when the user takes the plush fabric out of the dye vat body 1 after lifting the dip dyeing cabin 12, the plush fabric can be synchronously salvaged from the dip dyeing material in the dye vat body 1, thereby improving the subsequent utilization rate of the dye, and after the dye is filled in the dye vat body 1, at the moment, after any group of driving pulleys 21 are driven by a servo motor to rotate, the driving belt pulley 21 rotates and then drives the driving belt pulley 21 of the other group to rotate synchronously through the transmission of the linkage belt 22, the belt follower block 23 arranged outside the linkage belt 22 synchronously circulates along with the linkage belt 22 in the transmission process, and the upper end of the belt follower block 23 is connected with the inner part of the reciprocating diaphragm 24 in a sliding way, so the reciprocating diaphragm 24 is driven to reciprocate left and right along the front and back inner walls of the dye vat main body 1 in the circulating movement process of the belt follower block 23, the helical impeller II 26 positioned on the right side surface of the reciprocating diaphragm 24 at the moment rotates in the dye in the reciprocating movement process of the reciprocating diaphragm 24, and the helical impeller II 26 drives the helical impeller I25 uniformly arranged on the upper surface of the reciprocating diaphragm 24 to synchronously rotate, the first helical impeller 25 rotates and is matched with the reciprocating movement of the reciprocating transverse plate 24, so that the bottom of the screen interlayer 13 is continuously blown upwards and stirred, the mesh aperture of the screen interlayer 13 is about 0.07um as the mesh number of the screen interlayer 13 is not less than two hundred meshes, and the particle size of particles in general dye is 0.05-0.5 um, so that the screen interlayer 13 is used for isolating and collecting the precipitated pigment in the dye in the dyeing tank main body 1, the precipitated pigment is reduced to fall into the bottommost part of the dyeing tank main body 1, and the reciprocating transverse plate 24 and the helical impeller 25 are convenient to be matched to perform reciprocating stirring and upward blowing on the precipitated pigment, so that the dye in the dyeing tank main body 1 can be better dispersed in the dyeing tank main body 1, and the dye is more uniformly distributed so as to promote the dip dyeing effect of dip-dyed plush fabrics;

in addition, in the process of the left-right reciprocating motion of the reciprocating diaphragm 24, the follow-up push block 31 positioned at the left side of the reciprocating diaphragm 24 is synchronously driven to synchronously displace, and when the follow-up push block 31 displaces, the inclined surface of the follow-up push block 31 is caused to continuously abut against the back side end of the spring piston push rod 32, so that the spring piston push rod 32 is caused to blow air in the air cabin 33 into the center cabin 35, the center cabin 35 is positioned at the center of the bottom of the screen interlayer 13, after the air is blown into the center cabin 35, an upward-blowing bubble area is formed in the dye vat body 1, and in the reciprocating process of the reciprocating diaphragm 24, the air bubble area is formed by continuously blowing air into the dye vat body 1 through the spring piston push rod 32, and further the formed bubble area is further assisted in the effect of dispersing the dye by the reciprocating stirring mechanism 2, and meanwhile, the dye liquid in the dye vat body 1 is driven by the movement of bubbles to reciprocally shake, so that the fabric can be fully impregnated, the dyeing effect is improved, and the fabric can drop and the shaking condition of the fabric can be reduced by the soft fabric is combined with the characteristics of the fabric;

simultaneously, when the reciprocating diaphragm 24 moves reciprocally, the horizontal rack 41 on the inner upper surface of the reciprocating diaphragm is synchronously driven to displace synchronously, and the horizontal rack 41 and the ratchet plate 43 are meshed to drive, so that: the initial position of the ratchet disc 43 is not meshed with the horizontal rack 41, and the characteristics of the ratchet disc 43 are combined, namely when the horizontal rack 41 moves unidirectionally to one side, the ratchet disc 43 is driven to rotate, and when the horizontal rack 41 moves unidirectionally to the opposite side, the ratchet disc 43 is not driven to rotate, so that when the timing controller arranged in the timing cabin 42 is electrically connected with the electric control telescopic rod 44, namely, the timing controller arranged in the timing cabin 42 can automatically select the dip dyeing duration before a user dips a fabric, the driving of the electric control telescopic rod 44 can be realized through the timing controller, the ratchet disc 43 is driven to move forwards and prompt the inserting tenon 48 to automatically insert into the inside of the cross groove 47 after the driving of the electric control telescopic rod 44, at the moment, the horizontal rack 41 can be meshed with the ratchet disc 43, and the characteristics of the ratchet disc 43 are combined, and when the reciprocating transverse plate 24 drives the horizontal rack 41 to reciprocate to move unidirectionally to one side, the ratchet disc 43 is driven to rotate, and then the cross groove 47 is driven to rotate synchronously, the dyeing time is controlled by the timing controller, the time controller is arranged in the timing cabin 42, the time is set in advance, the dyeing time is selected by the user, the dyeing time is controlled in advance, the dyeing time is controlled to be controlled in advance, the dyeing time is controlled to reach the inner side of the fabric, the dyeing time is finished, and the dyeing time is gradually is reduced to the dyeing the fabric is finished, and the dyeing time is finished by the dyeing time is finished by the dyeing time 12, and the dyeing time is finished by the dyeing time and the dyeing time, and the dyeing time is finished.

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

1. The device for solving the problem of uneven dye dissolution and dispersion during dip dyeing of plush fabric comprises a dyeing pond main body (1), and is characterized in that: the dyeing tank is characterized in that a water outlet (11) is formed in the bottom of the left side of the dyeing tank main body (1), a dip dyeing cabin (12) is arranged in the dyeing tank main body (1), a screen interlayer (13) is arranged below the dip dyeing cabin (12), a reciprocating mixing mechanism (2) is arranged below the screen interlayer (13), central gushing mechanisms (3) are symmetrically arranged at the front and back sides below the reciprocating mixing mechanism (2), a timing lifting mechanism (4) is arranged above the dip dyeing cabin (12) and on the front and back inner walls of the dyeing tank main body (1), and an auxiliary protection mechanism (5) is arranged on the front side surface of the dyeing tank main body (1);

the reciprocating stirring mechanism (2) comprises: the dyeing pond comprises a driving belt pulley (21), a linkage belt (22), a belt follower block (23), a reciprocating transverse plate (24), a first helical impeller (25) and a second helical impeller (26), wherein the driving belt pulley (21) is arranged at the bottom of the dyeing pond main body (1), the linkage belt (22) is arranged outside the driving belt pulley (21), the linkage belt (22) is in transmission connection with the driving belt pulley (21), the belt follower block (23) is fixedly arranged outside the right front side of the driving belt pulley (21), the reciprocating transverse plate (24) is arranged above the belt follower block (23), the first helical impeller (25) is uniformly arranged on the upper surface of the reciprocating transverse plate (24), and the second helical impeller (26) is rotatably connected to the right side surface of the reciprocating transverse plate (24) at the right side of the bottom of the first helical impeller (25).

The front side and the rear side of the reciprocating transverse plate (24) are connected to the front inner wall and the rear inner wall of the dyeing pond main body (1) in a sliding way, and the upper end of the belt follow-up block (23) is connected to the inside of the reciprocating transverse plate (24) in a sliding way;

the center gushing mechanism (3) includes: the device comprises a follow-up push block (31), a spring piston push rod (32), an air cabin (33), an air inlet pipe (34), a central cabin (35) and a surge plate (36), wherein the left end face of the inner side of a reciprocating transverse plate (24) is fixedly connected with the follow-up push block (31), the front side face of the follow-up push block (31) is abutted with the spring piston push rod (32), the front end of the spring piston push rod (32) is positioned in the bottom face of a dyeing pool main body (1) and is internally provided with the air cabin (33), the back side of the air cabin (33) is communicated with the air inlet pipe (34), the front end of the spring piston push rod (32) is mutually matched with the inner part of the air cabin (33), the front end of the air cabin (33) is communicated with the central cabin (35), and the surge plate (36) is fixedly arranged above the central cabin (35).

The timing lifting mechanism (4) comprises: the automatic dyeing machine comprises a horizontal rack (41), a timing cabin (42), a ratchet disc (43), an electric control telescopic rod (44), a winding wheel (45), a traction rope (46), a cross groove (47), a plug tenon (48) and a fixed lug (49), wherein the horizontal rack (41) is fixedly connected to the upper surface of the back side of the reciprocating transverse plate (24), the timing cabin (42) is arranged on the upper side of the horizontal rack (41) and positioned on the inner wall of a dyeing pool main body (1), the ratchet disc (43) is arranged on the front side of the timing cabin (42), the electric control telescopic rod (44) is arranged on the back side of the ratchet disc (43), the plug tenon (48) is fixedly connected to the front side of the ratchet disc (43), the winding wheel (45) is arranged on the front side of the plug tenon (48), the cross groove (47) is formed in one side, close to the plug tenon (48), the cross groove (47) is mutually matched with the plug tenon (48), the traction rope (46) is wound on the outer side of the winding wheel (45), and the lower end of the traction rope (46) is fixedly connected with the fixed lug (49); the fixing lugs (49) are fixedly arranged on the front side and the rear side of the dyeing cabin (12).

2. The device for solving the problem of uneven dissolution and dispersion of dye in the dip dyeing of plush fabric according to claim 1, wherein: the screen interlayer (13) is fixedly arranged on the inner wall close to the inner bottom surface of the dyeing pond main body (1), and the mesh number of the screen interlayer (13) is not less than two hundred meshes.

3. The device for solving the problem of uneven dissolution and dispersion of dye in the dip dyeing of plush fabric according to claim 1, wherein: the driving belt pulleys (21) are symmetrically distributed on the inner bottom surface of the dyeing tank main body (1), and the bottoms of the driving belt pulleys (21) are rotationally connected to the bottom surface of the dyeing tank main body (1).

4. The device for solving the problem of uneven dissolution and dispersion of dye in the dip dyeing of plush fabric according to claim 1, wherein: the follow-up push block (31) is positioned at the back end of the spring piston push rod (32) at the bottom surface of the dyeing pond main body (1), and one surface of the follow-up push block (31) close to the back end of the spring piston push rod (32) is an inclined surface.

5. The device for solving the problem of uneven dissolution and dispersion of dye in the dip dyeing of plush fabric according to claim 1, wherein: the front output end of the electric control telescopic rod (44) is rotationally connected with the center position of the back side surface of the ratchet disc (43), and the back side end of the electric control telescopic rod (44) is fixedly arranged in the timing cabin (42).

6. The device for solving the problem of uneven dissolution and dispersion of dye in the dip dyeing of plush fabric according to claim 1, wherein: the auxiliary protection mechanism (5) comprises: auxiliary pedal (51), spring spout (52), slip push rod (53), restriction groove (54) and follow-up strip (55), the front side surface of dyeing pond main part (1) is bilateral symmetry and is provided with spring spout (52), and the inside sliding connection of spring spout (52) has auxiliary pedal (51) to the bottom of auxiliary pedal (51) articulates there is slip push rod (53), restriction groove (54) have been seted up to the leading flank of dyeing pond main part (1), the lower extreme sliding connection of slip push rod (53) is in the inside of restriction groove (54), the leading flank fixedly connected with follow-up strip (55) of slip push rod (53), the upper end fixedly connected with protection apron (56) of follow-up strip (55).