CN118087176A

CN118087176A - Multicolor interval dyeing device and method for textile fabric

Info

Publication number: CN118087176A
Application number: CN202410531147.7A
Authority: CN
Inventors: 张誉骞
Original assignee: Nantong Donggeng Machinery Co ltd
Current assignee: Nantong Donggeng Machinery Co ltd
Priority date: 2024-04-29
Filing date: 2024-04-29
Publication date: 2024-05-28
Anticipated expiration: 2044-04-29

Abstract

The invention belongs to the technical field of textile dyeing, in particular to a textile multicolor interval dyeing device which comprises conveying rollers, wherein one side of each conveying roller is provided with a supporting mechanism, the upper end of each supporting mechanism is provided with a color mixing mechanism, a spraying mechanism is arranged below textiles between the two conveying rollers, and one side of each color mixing mechanism is provided with a touch screen. The device, through setting up mixing of colors mechanism, dyestuff raw materials through rather than connecting intelligent control valve, the ratio of three primary colors dyestuff of touch screen operation control stirs in the agitator tank of agitator tank group, and the second inlet pipe design has realized the inner wall cleaning performance to the agitator tank of agitator tank group, further can realize the agitator tank washing that has already sprayed, and first inlet pipe carries out dyestuff raw materials injection to another agitator tank in the agitator tank group simultaneously, avoids cross contamination, keeps the purity and the color accuracy of dyestuff.

Description

Multicolor interval dyeing device and method for textile fabric

Technical Field

The invention relates to the technical field of textile dyeing, in particular to a device and a method for dyeing textile fabrics at intervals in multiple colors.

Background

The dyeing of textiles is a process of adding pigments or dyes to textiles to change colors or change colors, in the prior art, the proportion of the dyes usually needs to be manually operated, and the proportion of the dyes relates to precise quantity and proportion relation so as to ensure the accuracy and consistency of dyeing effect.

Along with development of science and technology, some automatic dye proportioning systems are also developed, and the systems can realize accurate proportioning operation through precise instruments and control systems, but certain manual intervention is needed, such as formula adjustment, and when some spraying devices are used for interval dyeing, the inner wall of each spraying device is not cleaned before dye is cleaned, so that deviation of subsequent dyeing effects is caused, the interval dyeing effects are reduced, and especially after the dye is sprayed, the inner wall of each spraying device is cleaned manually, so that the possibility of blockage of each spraying device is reduced.

Based on the existing textile dyeing technical problem, the invention provides a multi-color interval dyeing device and method for textile fabrics.

Disclosure of Invention

The invention provides a multicolor interval dyeing device and method for textile fabrics, comprising conveying rollers, wherein one side of each conveying roller is provided with a supporting mechanism, the upper end of each supporting mechanism is provided with a color mixing mechanism, a spraying mechanism is arranged below the textile fabrics between the two conveying rollers, and one side of each color mixing mechanism is provided with a touch screen.

The support mechanism realizes the back and forth movement of the color mixing mechanism.

The color mixing mechanism is used for stirring the color of the dye.

The spraying mechanism realizes the action of dyeing textiles at intervals.

Preferably, the supporting mechanism is including placing the platform of placing on one side of the conveying roller, the top fixedly connected with cylinder group of placing the platform, one side of placing the platform still fixedly connected with first motor, one side of placing the platform is provided with the portal frame, the spout has been seted up to two crossbeam upper surfaces of portal frame, one side bottom fixedly connected with backup pad of portal frame, the upper surface of backup pad sets up elevating system.

Preferably, the lifting mechanism comprises support columns fixed on the upper surface of the support plate, a connecting rod is rotatably connected to the upper ends of the two support columns, a supporting ring is rotatably connected to one end of the connecting rod, an air cylinder is rotatably connected to the other end of the connecting rod, and the bottom end of the air cylinder is fixedly connected with the upper surface of the support plate.

Preferably, the mixing of colors mechanism includes fixed frame, the interior bottom wall of fixed frame is provided with the stirring tank group, the lower surface array of fixed frame is provided with the gyro wheel, the lower extreme of the stirring tank of stirring tank group runs through the interior bottom wall of fixed frame to the outside, two stirring tank lower extreme of stirring tank group all are provided with intelligent control valve, the upper end of fixed frame is provided with the swivel, the inner wall rotation of swivel is connected with the plectane, the plectane is along first inlet pipe of axis symmetry fixedly connected with respectively and second inlet pipe, the side of plectane sets up to tooth face, upper surface one side of fixed frame is provided with the second motor, the output shaft end of second motor through the gear with the tooth face laminating of plectane.

Preferably, the upper surface of the circular plate is provided with a groove along the central axis, and the bottom surface of the groove is provided with feeding holes in a circumferential array.

Preferably, the spraying mechanism is including the funnel of link inner wall department, the lower extreme array intercommunication of funnel has first conveying pipe, the one end fixedly connected with water pump box of first conveying pipe, one side array fixedly connected with second conveying pipe of water pump box, the below of second conveying pipe is provided with the fixed station, the notch has been seted up to the upper end of fixed station, the inner wall fixedly connected with dwang of notch, the upper surface sliding connection of dwang has the dwang, the one end of dwang with the output shaft of first motor passes through shaft coupling fixed connection, the surface of dwang is provided with the draw-in groove, the surface sliding joint of draw-in groove has "Y" template, the upper end array of "Y" template is provided with the nozzle, the conveying groove has been seted up to the inside of "Y" template, the inner wall of conveying groove with the inner wall fixed intercommunication of second conveying pipe, one side upper end of fixed station is provided with the notch, one side lower extreme of fixed station is provided with the sewage collecting box, one side of connecting pipe is provided with the external water retaining box.

Preferably, the textile cloth between the plurality of nozzles and the conveying roller is in a vertical shape.

Preferably, a silica gel gasket matched with the funnel is arranged on the surface of the funnel.

Preferably, a splash-proof strip is arranged on one side of the water baffle close to the nozzle.

Preferably, a method of a multi-color interval dyeing device for textile fabrics comprises the following steps:

Firstly, externally connecting a first feeding pipe with a coloring agent through an intelligent control valve, externally connecting a second feeding pipe with a warm water inlet pipe through the intelligent control valve, selecting corresponding color required during interval dyeing according to the requirement of a user through a human-computer interaction interface on a touch screen, touching a screen confirmation button by a motor after the selection is finished, enabling the coloring agent to enter one of stirring tanks in a stirring tank group through the first feeding pipe, and rotating a circular plate under the driving of a second motor after the completion of the dye proportioning in the stirring tank, so that an outlet of the second feeding pipe corresponds to an inlet of the stirring tank, enabling the first feeding pipe to correspond to an inlet of the other stirring tank, controlling the raw material proportioning of the coloring agent with the next color to enter an empty stirring tank corresponding to the first feeding pipe through the intelligent control valve, and starting the stirring tank to work;

Step two, the stirring tank which works first in the step one is pushed by the cylinder group, the lower end of the intelligent control valve fixedly connected with the lower end of the stirring tank corresponds to the funnel, the supporting ring at one end of the connecting rod is driven to ascend under the shrinkage of the cylinder, the funnel is synchronously driven to ascend until the surface of the funnel is tightly attached to the lower end of the intelligent control valve, the intelligent control valve is opened, and the flow of dye is controlled simultaneously;

Step three, the dye passes through the first feeding pipe under the control of the intelligent control valve, then enters the second feeding pipe under the control of the water pump box fixedly connected with the first feeding pipe, and finally is sprayed out by the nozzle;

After the dye in the stirring tank in the step one is used, the lower end of the second feeding pipe is driven by the second motor to be in contact with an inlet at the upper end of the stirring tank, an intelligent control valve externally connected to the second feeding pipe controls warm water to enter, the entered warm water washes the inner wall of the stirring tank, the washed sewage passes through a nozzle under the action of the intelligent control valve at the bottom end and is discharged through the nozzle, and the inner walls of the first feeding pipe, the second feeding pipe and the nozzle are washed;

Step five, the first motor drives the dwang to restore to original shape, the nozzle keeps perpendicular with the fabric simultaneously, elevating system drives the funnel to descend, until the lower extreme of intelligent control valve is located the outside, then the cylinder pole shrink of cylinder group, the gyro wheel of pulling fixed frame is in the inside slip of spout, the agitator tank that corresponds with first inlet pipe in the fixed frame moves to being in same vertical line with the funnel, elevating system drives the funnel and rises, the inner wall of funnel and the inseparable laminating of lower extreme of intelligent control valve, the agitator tank that is equipped with the dyestuff of agitator tank group at this moment repeats step two and step three under the control of intelligent control valve, simultaneously the second motor drives the counter-rotation of plectane through the gear, the lower extreme of first inlet pipe and the empty agitator tank's of agitator tank group entry contact repeat step one.

The beneficial effects of the invention are as follows:

1. The stirring tank of the stirring tank group is controlled to switch back and forth to correspond to the funnel.

2. Through setting up mixing of colors mechanism, dyestuff raw materials through rather than being connected intelligent control valve, the ratio of three primary colors dyestuff of touch screen operation control stirs in the agitator tank of agitator tank group, and the second inlet pipe design has realized the inner wall cleaning effect to the agitator tank of agitator tank group, further can realize the agitator tank washing that has already sprayed, and first inlet pipe carries out dyestuff raw materials injection to another agitator tank in the agitator tank group simultaneously, avoids cross contamination, keeps the purity and the color accuracy of dyestuff.

3. Through setting up spraying mechanism, realize even dyeing effect, reduce the use amount of dyestuff and water, resources are saved, and the dyestuff residue in the waste water is less simultaneously, has improved the utilization ratio of dyestuff.

Drawings

FIG. 1 is a schematic diagram of a multi-color interval dyeing apparatus and method for textile fabrics according to the present invention;

FIG. 2 is a perspective view of a support mechanism for a device and method for multicolor interval dyeing of textile fabrics according to the present invention;

FIG. 3 is a perspective view of a lifting mechanism of a multi-color interval dyeing apparatus and method for textile fabrics according to the present invention;

FIG. 4 is a perspective view of a toning mechanism of a multi-color interval dyeing apparatus and method for textile fabrics according to the present invention;

FIG. 5 is a perspective view of a circular plate structure of a multi-color interval dyeing apparatus and method for textile fabrics according to the present invention;

FIG. 6 is a perspective view of a spray mechanism of a device and method for multicolor interval dyeing of textile fabrics according to the present invention;

Fig. 7 is a nozzle position diagram of a multi-color interval dyeing apparatus and method for textile fabrics according to the present invention.

In the figure: 1. a conveying roller; 2. a support mechanism; 20. a first motor; 21. a placement table; 22. a cylinder group; 23. a portal frame; 24. a chute; 25. a support plate; 26. a lifting mechanism; 261. a support column; 262. a connecting rod; 263. a backing ring; 264. a cylinder; 3. a color mixing mechanism; 31. a fixed frame; 32. a stirring tank group; 33. a roller; 34. an intelligent control valve; 35. a swivel; 36. a circular plate; 361. a groove; 362. a feed hole; 37. a first feed tube; 38. a second feed tube; 39. a second motor; 4. a spraying mechanism; 41. a funnel; 42. a first feed tube; 43. a water pump box; 44. a second feed tube; 45. a fixed table; 46. a rotating block; 47. a rotating lever; 48. a Y-shaped plate; 49. a nozzle; 410. a water baffle; 411. a sewage collection box; 5. and a touch screen.

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.

Referring to fig. 1-7, a multicolor interval dyeing device and method for textile fabrics comprises a conveying roller 1, wherein a supporting mechanism 2 is arranged on one side of the conveying roller 1, a color mixing mechanism 3 is arranged at the upper end of the supporting mechanism 2, a spraying mechanism 4 is arranged below the textile fabrics between the two conveying rollers 1, and a touch screen 5 is arranged on one side of the color mixing mechanism 3.

In order to realize the back and forth movement of the support mechanism 2 to the color changing mechanism 3; the setting support mechanism 2 is including placing the platform 21 of placing on one side of the conveying roller 1, and the top fixedly connected with cylinder group 22 of placing the platform 21, and one side of placing the platform 21 is still fixedly connected with first motor 20, and one side of placing the platform 21 is provided with portal frame 23, and spout 24 has been seted up to two crossbeam upper surfaces of portal frame 23, and one side bottom fixedly connected with backup pad 25 of portal frame 23, the upper surface of backup pad 25 sets up elevating system 26.

In particular, by this structure, the support of the toning mechanism 3 can be achieved, and at the same time, the funnel 41 and the lower end of the intelligent control valve 34 can be closed and loosened by the lifting mechanism 26, so that the stirring tanks of the stirring tank set 32 are controlled to be switched back and forth to correspond to the funnel 41.

The lifting mechanism 26 comprises support columns 261 fixed on the upper surface of the support plate 25, a connecting rod 262 is rotatably connected to the upper ends of the two support columns 261, a supporting ring 263 is rotatably connected to one end of the connecting rod 262, an air cylinder 264 is rotatably connected to the other end of the connecting rod 262, and the bottom end of the air cylinder 264 is fixedly connected with the upper surface of the support plate 25.

Specifically, by means of the structure, the funnel 41 at the inner wall of the supporting ring 263 is driven by the air cylinder 264 to ascend or descend in the vertical direction, so that the silica gel pad arranged at the inner wall of the funnel 41 is tightly attached to or loosened from the lower end of the intelligent control valve 34, and the funnel 41 can be controlled to be switched between the stirring tanks in the stirring tank set 32.

In order to realize the stirring action of the color matching mechanism 3 on the color of the dye; the setting and mixing mechanism 3 comprises a fixed frame 31, wherein the inner bottom wall of the fixed frame 31 is provided with a stirring tank group 32, the lower surface of the fixed frame 31 is provided with rollers 33 in an array, the lower ends of stirring tanks of the stirring tank group 32 penetrate through the inner bottom wall of the fixed frame 31 to the outer side, the lower ends of two stirring tanks of the stirring tank group 32 are respectively provided with an intelligent control valve 34, the upper end of the fixed frame 31 is provided with a swivel 35, the inner wall of the swivel 35 is rotationally connected with a circular plate 36, the circular plate 36 is symmetrically and fixedly connected with a first feeding pipe 37 and a second feeding pipe 38 along a central axis respectively, the side surface of the circular plate 36 is provided with a tooth cosmetic surface, one side of the upper surface of the fixed frame 31 is provided with a second motor 39, and the tail end of an output shaft of the second motor 39 is attached to the tooth cosmetic surface of the circular plate 36 through a gear; the upper surface of the circular plate 36 is provided with a groove 361 along the central axis, and the bottom surface of the groove 361 is provided with a feeding hole 362 in a circumferential array.

Specifically, by means of the structure, an operator operates the touch screen 5 to select colors to be sprayed and proportions among color raw materials at a human-computer interaction interface, different colors are ordered, the interval for starting spraying between each color is the sum of the cleaning time of the inner wall of the stirring tank and the rising and falling time of the lifting mechanism, during the process of performing different color conversion spraying, the conveying roller 1 stops working, the dye raw materials enter the stirring tank of the stirring tank group 32 through the intelligent control valve connected with the conveying roller, the stirring is performed in the stirring tank of the stirring tank group, the cleaning effect of the inner wall of the stirring tank group 32 is achieved through the design of the second feeding pipe 38, the cleaning of the stirring tank which is sprayed is further achieved, meanwhile, the first feeding pipe 37 performs dye raw material injection on the other stirring tank in the stirring tank group 32 and stirring is performed in the stirring tank, cross contamination is avoided, and the purity and color accuracy of the dye are maintained.

In order to realize the intermittent dyeing action of the spraying mechanism 4 on the textile; the spraying mechanism 4 comprises a funnel 41 which is hung on the inner wall of a supporting ring 263, a first feeding pipe 42 is communicated with the lower end array of the funnel 41, a water pump box 43 is fixedly connected to one end of the first feeding pipe 42, a second feeding pipe 44 is fixedly connected to one side array of the water pump box 43, a fixed table 45 is arranged below the second feeding pipe 44, a notch is formed in the upper end of the fixed table 45, a rotating block 46 is fixedly connected to the inner wall of the notch, a rotating rod 47 is connected to the upper surface of the rotating block 46 in a sliding mode, one end of the rotating rod 47 is fixedly connected with an output shaft of the first motor 20 through a coupling, a clamping groove is formed in the surface of the rotating rod 47, a Y-shaped plate 48 is connected to the surface of the clamping groove in a sliding mode, a nozzle 49 is arranged at the upper end array of the Y-shaped plate 48, a feeding groove is formed in the inner side of the feeding groove, the inner wall of the feeding groove is fixedly communicated with the inner wall of the second feeding pipe 44, a water retaining plate 410 is arranged at the upper end of one side of the fixed table 45, a sewage collecting box 411 is arranged at the lower end of one side of the fixed table 45, and an external connecting pipe is arranged at one side of the sewage collecting box 411.

Specifically so implemented, through this structure, when realizing that the fabric conveys between conveying roller 1, nozzle 49 carries out even spraying to the fabric, further realizes that this mechanism is in the abluent effect of the pipeline of dyestuff liquid in the in-process of using to reach spraying and washs integrative function, and then can reduce the use amount of dyestuff and water, resources are saved has improved the utilization ratio of dyestuff.

The textile fabric between the plurality of nozzles 49 and the conveying roller 1 is in a vertical shape.

In particular, by means of this construction it is ensured that the dye liquor covers the entire textile surface uniformly, avoiding the occurrence of spin-out or uneven dyeing, while reducing the likelihood of dye liquor being sputtered onto the surrounding environment or the equipment, improving the working efficiency and reducing the cleaning effort, in particular it is possible to more easily control the direction and extent of the dye liquor and ensure that the dye liquor is precisely sprayed onto the designated area.

The surface of the funnel 41 is provided with a silica gel pad adapted thereto.

Specifically, through this structure, increase the sealed effect between intelligent control valve 34 lower extreme and the funnel 41 inner wall, avoid the dyestuff liquid seepage, and then influence equipment use.

The splash guard 410 is provided with splash bars on the side adjacent the nozzle 49.

Specifically, by this structure, the dye liquid sewage is sprayed out through the nozzle 49 to strike the water baffle 410, and the splash-proof strip prevents the dye liquid sewage from being splashed out by the impact, thereby reducing environmental pollution and preventing the equipment from being polluted, and further affecting the service life of the equipment.

Referring to fig. 1-7, a method for a multi-color space dyeing apparatus for textile fabrics comprises the steps of:

Firstly, externally connecting a first feeding pipe 37 with a coloring agent through an intelligent control valve, externally connecting a second feeding pipe 38 with a warm water inlet pipe through the intelligent control valve, selecting corresponding colors required during interval dyeing according to customer requirements through a human-computer interaction interface on a touch screen 5, and confirming a button by a motor touch screen 5 after the selection is finished, wherein the coloring agent enters one of stirring tanks in a stirring tank group 32 through the first feeding pipe 37, and after the dye proportioning in the stirring tank is finished, a circular plate 36 rotates under the driving of a second motor 39, so that the outlet of the second feeding pipe 38 corresponds to the inlet of the stirring tank, the first feeding pipe 37 corresponds to the inlet of the other stirring tank, and the first feeding pipe 37 controls the raw material proportioning of the coloring agent with the next color to enter an empty stirring tank corresponding to the first feeding pipe through the intelligent control valve, so that the stirring tank starts working;

Step two, the stirring tank which works first in the step one is pushed by the cylinder group 22, the lower end of the intelligent control valve 34 fixedly connected with the lower end of the stirring tank corresponds to the funnel 41, the supporting ring 263 at one end of the connecting rod 262 is driven to ascend under the shrinkage of the cylinder 264, the funnel 41 is synchronously driven to ascend until the surface of the funnel 41 is tightly attached to the lower end of the intelligent control valve 34, the intelligent control valve 34 is opened, and the flow of dye is controlled;

Step three, the dye passes through the first feeding pipe 42 under the control of the intelligent control valve 34, then enters the second feeding pipe 44 under the control of the water pump box 43 fixedly connected with the first feeding pipe 42, and finally is sprayed out by the nozzle 49;

After the dye in the stirring tank in the step four is used, the lower end of the second feeding pipe 38 is driven by the second motor 39 to be in contact with the inlet of the upper end of the stirring tank, the intelligent control valve externally connected to the second feeding pipe 38 controls warm water to enter, the entered warm water washes the inner wall of the stirring tank, the washed sewage passes through the nozzle 49 under the action of the intelligent control valve 34 at the bottom end, and simultaneously washes the inner walls of the first feeding pipe 42, the second feeding pipe 44 and the nozzle 49, and before the sewage is sprayed out from the nozzle 49, the surface of the rotating block 46 under the rotating rod 47 driven by the first motor 20 rotates towards the water baffle 410, namely the nozzle 49 at the upper end of the Y-shaped plate 48 is driven to rotate towards the water baffle 410, the sewage is sprayed out to the water baffle 410 through the nozzle 49, the sewage slides into the sewage collecting box 411 along the inner wall of the water baffle 410, and the sewage in the sewage collecting box 411 is discharged through the outer connecting pipe;

Step five, the first motor 20 drives the rotating rod 47 to restore to the original state, the nozzle 49 keeps vertical to the textile fabric, the lifting mechanism 26 drives the funnel 41 to descend until the lower end of the intelligent control valve 34 is located outside, then the cylinder rod of the cylinder group 22 contracts, the roller 33 of the fixed frame 31 is pulled to slide in the chute 24, the stirring tank corresponding to the first feeding pipe 37 in the fixed frame 31 moves to be in the same vertical line with the funnel 41, the lifting mechanism 26 drives the funnel 41 to ascend, the inner wall of the funnel 41 is tightly attached to the lower end of the intelligent control valve 34, at the moment, the stirring tank with dye of the stirring tank group 32 repeats step two and step three under the control of the intelligent control valve 34, the second motor 39 drives the circular plate 36 to reversely rotate through the gear, and the lower end of the first feeding pipe 37 contacts with the inlet of the empty stirring tank of the stirring tank group 32, and the step one is repeated.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a textile fabric polychrome interval dyeing apparatus, includes conveying roller (1), its characterized in that: a supporting mechanism (2) is arranged on one side of the conveying rollers (1), a color mixing mechanism (3) is arranged at the upper end of the supporting mechanism (2), a spraying mechanism (4) is arranged below the textile between the two conveying rollers (1), and a touch screen (5) is arranged on one side of the color mixing mechanism (3);

The support mechanism (2) realizes the back and forth movement of the color mixing mechanism (3);

the color mixing mechanism (3) is used for stirring the color of the dye;

The spraying mechanism (4) realizes the action of dyeing textiles at intervals.

2. A multi-color space dyeing apparatus for textile fabrics according to claim 1, wherein: supporting mechanism (2) are including placing place platform (21) of conveyer roll (1) one side, place the top fixedly connected with cylinder group (22) of platform (21), place the first motor (20) of one side of platform (21) still fixedly connected with, place one side of platform (21) and be provided with portal frame (23), spout (24) have been seted up to two crossbeam upper surfaces of portal frame (23), one side bottom fixedly connected with backup pad (25) of portal frame (23), the upper surface of backup pad (25) sets up elevating system (26).

3. A multi-color space dyeing apparatus for textile fabrics according to claim 2, wherein: elevating system (26) are including fixing support column (261) of backup pad (25) upper surface, and two upper end rotation between support column (261) is connected with connecting rod (262), the one end rotation of connecting rod (262) is connected with backing ring (263), the other end rotation of connecting rod (262) is connected with cylinder (264), the bottom of cylinder (264) with the upper surface fixed connection of backup pad (25).

4. A multi-color space dyeing apparatus for textile fabrics according to claim 3 and characterized in that: the utility model provides a mixing of colors mechanism (3) is including fixed frame (31), the interior bottom wall of fixed frame (31) is provided with stirring tank group (32), the lower surface array of fixed frame (31) is provided with gyro wheel (33), the lower extreme of stirring tank group (32) runs through the interior bottom wall of fixed frame (31) to the outside, two stirring tank lower extreme of stirring tank group (32) all are provided with intelligent control valve (34), the upper end of fixed frame (31) is provided with swivel (35), the inner wall rotation of swivel (35) is connected with plectane (36), plectane (36) are fixedly connected with first inlet pipe (37) and second inlet pipe (38) respectively along the axis symmetry, the side of plectane (36) is set up to tooth face, the upper surface one side of fixed frame (31) is provided with second motor (39), the output shaft end of second motor (39) through the gear with the tooth face laminating of plectane (36).

5. A multi-color space dyeing apparatus for textile fabrics as claimed in claim 4, wherein: the upper surface of plectane (36) has seted up recess (361) along the axis, the bottom surface circumference array of recess (361) has seted up feed port (362).

6. A multi-color space dyeing apparatus for textile fabrics as claimed in claim 5, wherein: the spraying mechanism (4) comprises a funnel (41) which is hung on the inner wall of the supporting ring (263), a first feeding pipe (42) is communicated with the lower end array of the funnel (41), a water pump box (43) is fixedly connected with one end of the first feeding pipe (42), a second feeding pipe (44) is fixedly connected with one side array of the water pump box (43), a fixed table (45) is arranged below the second feeding pipe (44), a notch is formed in the upper end of the fixed table (45), a rotating block (46) is fixedly connected with the inner wall of the notch, a rotating rod (47) is connected with the upper surface of the rotating block (46) in a sliding mode, one end of the rotating rod (47) is fixedly connected with the output shaft of the first motor (20) through a coupler, a clamping groove is formed in the surface of the rotating rod (47), a nozzle template (49) is arranged on the upper end array of the second feeding pipe (48), a water blocking plate (48) is arranged in the inner wall of the Y, a water blocking plate (411) is arranged on the inner wall of the Y (48), a water blocking plate (45) is fixedly connected with the inner wall of the first feeding plate (45), an external connecting pipe is arranged on one side of the sewage collecting box (411).

7. A multi-color space dyeing apparatus for textile fabrics as claimed in claim 6, wherein: the textile cloth between the plurality of nozzles (49) and the conveying roller (1) is vertical.

8. A multi-color space dyeing apparatus for textile fabrics as claimed in claim 6, wherein: the surface of the funnel (41) is provided with a silica gel gasket matched with the funnel.

9. A multi-color space dyeing apparatus for textile fabrics as claimed in claim 6, wherein: a splash-proof strip is arranged on one side of the water baffle (410) close to the nozzle (49).

10. A method of a textile fabric polychromatic space dyeing apparatus according to any one of claims 1 to 9, characterized by the steps of:

Firstly, externally connecting a first feeding pipe (37) with a coloring agent through an intelligent control valve, externally connecting a second feeding pipe (38) with a warm water inlet pipe through the intelligent control valve, selecting corresponding colors required during interval dyeing and trichromatic proportioning parameters of the coloring agent through a human-computer interaction interface on a touch screen (5), after selection, enabling the coloring agent to enter one of stirring tanks in a stirring tank group (32) through the first feeding pipe (37), enabling a circular plate (36) to rotate under the driving of a second motor (39) after the proportioning of the coloring agent in the stirring tank is completed, enabling an outlet of the second feeding pipe (38) to correspond to an inlet of the stirring tank, enabling the first feeding pipe (37) to correspond to an inlet of another stirring tank, controlling the raw material proportioning of the coloring agent in the next color to enter an empty stirring tank corresponding to the first feeding pipe through the intelligent control valve, and enabling the stirring tank to start working;

step two, the stirring tank which works first in the step one is pushed by the cylinder group (22), the lower end of an intelligent control valve (34) fixedly connected with the lower end of the stirring tank corresponds to the funnel (41), the supporting ring (263) at one end of the connecting rod (262) is driven to ascend under the shrinkage of the cylinder (264), the funnel (41) is synchronously driven to ascend until the surface of the funnel (41) is tightly attached to the lower end of the intelligent control valve (34), the intelligent control valve (34) is opened, and the flow of dye is controlled;

Step three, the dye passes through a first feeding pipe (42) under the control of an intelligent control valve (34), then enters a second feeding pipe (44) under the control of a water pump box (43) fixedly connected with the first feeding pipe (42), and finally is sprayed out by a nozzle (49);

After the dye in the stirring tank in the step four is used, the lower end of the second feeding pipe (38) is driven by the second motor (39) to contact with the inlet at the upper end of the stirring tank, the intelligent control valve externally connected to the second feeding pipe (38) controls warm water to enter, the entered warm water washes the inner wall of the stirring tank, the washed sewage flows out through the nozzle (49) under the action of the intelligent control valve (34) at the bottom end, meanwhile, the inner walls of the first feeding pipe (42), the second feeding pipe (44) and the nozzle (49) are washed, the surface of the rotating block (46) below the rotating rod (47) driven by the first motor (20) rotates towards the direction of the water baffle (410) before the sewage is sprayed out from the nozzle (49), namely, the nozzle (49) driving the upper end of the Y-shaped plate (48) rotates towards the direction of the water baffle (410), the sewage flows into the sewage collecting box (411) along the inner wall of the water baffle (410), and the sewage flows out from the sewage collecting box (411) through the outer connecting pipe;

Step five, the first motor (20) drives the rotating rod (47) to restore to the original state, the nozzle (49) keeps vertical to the textile fabric, the lifting mechanism (26) drives the funnel (41) to descend until the lower end of the intelligent control valve (34) is located outside, then the cylinder rod of the cylinder group (22) contracts, the roller (33) of the fixed frame (31) is pulled to slide in the chute (24), the stirring tank corresponding to the first feeding pipe (37) in the fixed frame (31) moves to be in the same vertical line with the funnel (41), the lifting mechanism (26) drives the funnel (41) to ascend, the inner wall of the funnel (41) is tightly attached to the lower end of the intelligent control valve (34), at the moment, the stirring tank filled with dye of the stirring tank group (32) repeats step two and step three under the control of the intelligent control valve (34), simultaneously, the second motor (39) drives the reverse rotation of the circular plate (36) through the gear, and the lower end of the first feeding pipe (37) is contacted with the inlet of the empty stirring tank of the stirring tank group (32).