CN113249894B

CN113249894B - Pure cotton textile yarn printing and dyeing system

Info

Publication number: CN113249894B
Application number: CN202110617708.1A
Authority: CN
Inventors: 周凯强
Original assignee: Nantong Xiangyuan Textile Co ltd
Current assignee: Nantong Xiangyuan Textile Co ltd
Priority date: 2021-06-03
Filing date: 2021-06-03
Publication date: 2021-09-24
Anticipated expiration: 2041-06-03
Also published as: CN113249894A

Abstract

The invention discloses a pure cotton textile yarn printing and dyeing system which comprises a dip dyeing box, wherein two frame openings are formed in the upper portion of the inner wall of the dip dyeing box, the side wall of the dip dyeing box is fixedly connected with a steam-heat mechanism for performing steam-heat treatment on yarns, the steam-heat mechanism is fixedly connected with a pump mechanism for pumping hot air into the steam-heat mechanism, the steam-heat mechanism comprises a water tank fixedly connected to the side wall of the dip dyeing box, the bottom of the water tank is connected with a water adding pipe, and an atomization plate is installed in the water tank. According to the invention, the steam heating mechanism and the air pumping mechanism are arranged, so that the yarns can be heated and humidified before dyeing, the affinity of the yarns with dye is increased during dyeing, the coloring effect of the yarns during printing and dyeing is further increased, the plurality of second transmission rollers can be continuously stretched and contracted by arranging the driving mechanism, the distance between the yarns after bundling is further increased, and the dye can be used for quickly dyeing the yarns inside.

Description

Pure cotton textile yarn printing and dyeing system

Technical Field

The invention relates to the technical field of textile yarn printing and dyeing, in particular to a pure cotton textile yarn printing and dyeing system.

Background

Before textile yarns are made into textile fabrics, the textile yarns need to be subjected to printing and dyeing treatment in order to have different colors.

In the invention patent ' 202010614510.3 patent application number ' pure cotton textile yarn printing and dyeing system ', the scheme drives the piston ring to move up and down when the transmission plate moves up and down, when the piston ring moves down to drive the striker plate to extrude the material guide hole to coincide with the position of the discharge hole, the dye is extruded out through the discharge hole by the air pressure in the extrusion hole, when the pushing cylinder continuously stretches and retracts, the dye is extruded out through the extrusion hole by the extrusion plug, so the yarn printing and dyeing function is realized by the reciprocating motion of the piston ring and the extrusion plug, and the effect of fully printing and dyeing the yarn is achieved, however, the scheme has the following defects;

1. the yarns are not subjected to steaming and heating treatment before being printed and dyed, so that the affinity of the yarns for dye is reduced, and the coloring effect of the yarns is poor during printing and dyeing;

2. at present, the yarns are subjected to cluster printing and dyeing, the collected yarns are not subjected to separation treatment in the scheme, and only the dyes sprayed at a high speed are used for printing and dyeing, so that the printing and dyeing time consumption is long, and the efficiency is low;

3. the dye is not treated when in use, so that a large amount of large associated water molecule groups exist in the dye, the speed of the dye for completely penetrating the yarn is reduced, and the printing and dyeing efficiency of the yarn is further reduced.

Based on the technical scheme, the invention provides a pure cotton textile yarn printing and dyeing system.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a pure cotton textile yarn printing and dyeing system.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a pure cotton weaving yarn printing and dyeing system, is including the dip-dyeing case, two frame mouths have been seted up to dip-dyeing incasement wall top, dip-dyeing case lateral wall fixedly connected with carries out the vapour heat engine that vapour heat treatment was handled to the yarn, the last fixed connection of vapour heat engine is to the pump gas mechanism of its inside pump income steam, vapour heat engine includes the water tank of fixed connection in dip-dyeing case lateral wall, the water tank bottom is connected with the filler pipe, install the atomizing board in the water tank, the water tank top is connected with the sleeve, install the fan in the sleeve, the heating cabinet is installed to dip-dyeing case one side, the sleeve upper end passes through steam pipe and heating cabinet intercommunication.

Further, the air pumping mechanism comprises a vortex tube fixedly connected to the side wall of the water tank, the input end of the vortex tube is communicated with an air inlet tube, a spiral tube is arranged in the sleeve, and the hot air output end of the vortex tube is communicated with the input end of the spiral tube through a hot air tube.

Further, fixedly connected with carries out the transmission device that transmits to the yarn in the impregnation and dyeing case, transmission device includes fixed connection in the U type piece of impregnation and dyeing incasement wall, the lateral wall that U type piece is close to the heating cabinet passes through the first transmission roller of support fixedly connected with, install two squeeze rolls on the lateral wall that the heating cabinet was kept away from to U type piece, a plurality of spouts have been seted up to U type piece lateral wall equipartition, spout inner wall sealing sliding connection has the U template, the second transmission roller is installed to a tip that the U template is located outside the spout, a tip that the U template is located within the spout passes through spring and spout inner wall elastic connection.

Further, the actuating mechanism that a plurality of second transmission rollers of fixedly connected with drive removed on the U type piece, actuating mechanism includes the fan-shaped frame of fixed connection at U type piece inside wall, fan-shaped frame inner wall fixedly connected with a plurality of and second transmission roller one-to-one's permanent magnetism post, it is a plurality of inlay respectively in the second transmission roller and be equipped with the permanent magnetism strip.

Further, be equipped with in the fan-shaped frame and carry out the magnetization mechanism that magnetizes to the dyestuff in the dip-dyeing case, magnetization mechanism is including seting up the arc chamber of bottom in the fan-shaped frame, a plurality of hydrojet holes have been seted up at arc intracavity top, the spout passes through one-way imbibition passageway and U type piece below space intercommunication, and is a plurality of the spout inner wall passes through one-way liquid outlet channel and arc chamber intercommunication, U type piece top opening part is provided with the arc, the inboard space of opening of U type piece passes through drainage channel and rather than below space intercommunication.

Furthermore, a plurality of the liquid spraying holes are in a tapered shape with a narrow top and a wide bottom, and a plurality of the liquid discharging channels are arranged close to the side wall of the fan-shaped frame.

Further, be equipped with on the dip-dyeing case and carry out the partition mechanism of separating to the yarn, partition mechanism includes fixed frame of fixed connection in dip-dyeing case lateral wall, fixed frame inner wall rotates and is connected with a plurality of horizontal poles, coaxial arrangement has a plurality of impellers on the horizontal pole, horizontal pole one end runs through dip-dyeing case lateral wall and extends to its inside, the lateral wall that the horizontal pole is located the dip-dyeing case extends a plurality of spacer rods of its radial fixedly connected with, be provided with the air conditioning passageway in the fixed frame lateral wall, the air conditioning output of vortex tube passes through the air conditioning passageway and communicates with the inner space of fixed frame.

Furthermore, a plurality of air nozzles are communicated with the cold air channel, incline towards the impeller and drive the impeller to rotate by the ejected air flow.

The invention has the following advantages:

1: through setting up steam heating mechanism and pump gas mechanism for the yarn can add thermal humidification to it before dyeing, makes the yarn rise with the affinity of dyestuff when dyeing, and then increases the yarn effect of coloring when printing and dyeing.

2: through setting up actuating mechanism for the yarn is when removing the dyeing, and a plurality of second transmission rollers can constantly stretch out and draw back, and then carry out intermittent type nature tensioning and loose to the yarn, and then increase the interval between the back yarn tied in a bundle, make the dyestuff can be quick dye the yarn of inside.

3: the dye in the dip dyeing box can be magnetized by arranging the magnetizing mechanism, so that the liquid in the dye is decomposed into smaller associated water molecule groups from larger associated water molecule groups, the speed of completely soaking the dye into the yarn is further increased, and the dyeing efficiency of the yarn is improved;

4: through setting up the partition mechanism for can separate in the yarn after the album of beams when a plurality of spacer bars rotate, make the interval between a plurality of yarns great, make inside dyestuff easier infiltration to the yarn, further increase its dyeing effect.

Drawings

FIG. 1 is a schematic perspective view of a pure cotton textile yarn dyeing system according to the present invention;

FIG. 2 is a schematic diagram of a vertical cross-sectional structure of a pure cotton textile yarn dyeing system according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2;

FIG. 4 is an enlarged view of the structure at B in FIG. 2;

FIG. 5 is a schematic rear view of a dip-dyeing tank in a pure cotton textile yarn dyeing system according to the present invention;

fig. 6 is a schematic perspective view of an air pumping mechanism in a pure cotton textile yarn printing and dyeing system according to the present invention.

In the figure: 1 dip dyeing box, 2 frame openings, 3 transmission mechanisms, 301U-shaped blocks, 302 first transmission rollers, 303 extrusion rollers, 304 sliding grooves, 305U-shaped plates, 306 second transmission rollers, 307 springs, 4 driving mechanisms, 401 fan-shaped frames, 402 permanent magnet columns, 403 permanent magnet strips, 5 magnetization mechanisms, 501 arc-shaped cavities, 502 liquid spraying holes, 503 one-way liquid suction channels, 504 one-way liquid outlet channels, 505 arc-shaped plates, 506 liquid discharge channels, 6 steam-heat mechanisms, 601 water tanks, 602 water adding pipes, 603 atomization plates, 604 sleeves, 605 fans, 606 heating boxes, 607 steam pipes, 7 air pumping mechanisms, 701 vortex pipes, 702 air inlet pipes, 703 spiral pipes, 704 hot air pipes, 8 separation mechanisms, 801 fixed frames, 802 impellers, 803 separation rods, 804 cold air channels, 805 air nozzles and 806 cross rods.

Detailed Description

Referring to fig. 1-6, a pure cotton textile yarn dyeing and printing system comprises a dip-dyeing box 1, two frame openings 2 are arranged above the inner wall of the dip-dyeing box 1, so that yarns can conveniently enter the dip-dyeing box 1 and flow out of the dip-dyeing box 1, a steam heating mechanism 6 for steam heating treatment of the yarns is fixedly connected to the side wall of the dip-dyeing box 1, an air pumping mechanism 7 for pumping hot air into the steam heating mechanism 6 is fixedly connected to the steam heating mechanism 6, the steam heating mechanism 6 comprises a water tank 601 fixedly connected to the side wall of the dip-dyeing box 1, a water feeding pipe 602 is connected to the bottom of the water tank 601, an atomization plate 603 is arranged in the water tank 601, further, the water feeding pipe 602 mainly enables the water surface in the water tank 601 to be always attached to the lower surface of the atomization plate 603, so that when the atomization plate 603 is electrified and vibrated at high frequency, water in the water tank 601 is always atomized, a sleeve 604 is connected to the top of the water tank 601, a fan 605 is arranged in the sleeve 604, and a through hole is arranged above the inner wall of the water tank 601, the gas of being convenient for flows in water tank 601, and heating cabinet 606 is installed to impregnation box 1 one side, and sleeve 604 upper end passes through steam pipe 607 and heating cabinet 606 intercommunication, can pass through the fan 605 with the water smoke that the atomizing board 603 produced fast pump in heating cabinet 606 through steam pipe 607.

The air pumping mechanism 7 comprises a vortex tube 701 fixedly connected to the side wall of the water tank 601, the input end of the vortex tube 701 is communicated with an air inlet pipe 702, a spiral pipe 703 is arranged in the sleeve 604, and the hot air output end of the vortex tube 701 is communicated with the input end of the spiral pipe 703 through a hot air pipe 704.

Further, hot gas not only can increase the flow time of hot gas in sleeve 604 when spiral pipe 703, has still increased the area of contact of water smoke and hot gas, and then faster water smoke heats for steam after the heating gets into in heating cabinet 606 fast, and then carries out the heat treatment before printing and dyeing to the yarn.

Fixedly connected with carries out the transmission device 3 that transmits to the yarn in the impregnation case 1, transmission device 3 includes the U type piece 301 of fixed connection in the impregnation case 1 inner wall, the lateral wall that U type piece 301 is close to heating cabinet 606 passes through the first transmission roller 302 of support fixedly connected with, install two squeeze rolls 303 on the lateral wall that heating cabinet 606 was kept away from to U type piece 301, two squeeze rolls 303 can carry out the impression to the yarn, increase its upper color effect, can also extrude unnecessary dyestuff in the yarn simultaneously, avoid the dyestuff extravagant.

A plurality of spouts 304 have been seted up to U type piece 301 lateral wall equipartition, and spout 304 inner wall sealing sliding connection has U type board 305, and second transmission roller 306 is installed to a tip that U type board 305 is located outside spout 304, and spring 307 and spout 304 inner wall elastic connection are passed through to a tip that U type board 305 is located within spout 304, through the design of a plurality of second transmission rollers 306 for the yarn can be in the dyestuff in dip-dyeing case 1 steady removal.

Fixedly connected with drives the actuating mechanism 4 that a plurality of second transmission rollers 306 removed on the U type piece 301, actuating mechanism 4 includes the fan-shaped frame 401 of fixed connection at the U type piece 301 inside wall, and fan-shaped frame 401 inner wall fixedly connected with a plurality of permanent magnetism posts 402 with second transmission rollers 306 one-to-one, inlay respectively in a plurality of second transmission rollers 306 and be equipped with permanent magnetism strip 403.

It should be noted that, when the yarn moves on the second transmission roller 306, the yarn drives the second transmission roller 306 to rotate, and then when the second transmission roller 306 rotates to make the permanent magnetic strip 403 close to the permanent magnetic column 402, at this time, the permanent magnetic column 402 and the permanent magnetic strip 403 attract each other, and the attraction is enough to overcome the elastic force of the spring 307, and then the U-shaped plate 305 drives the second transmission roller 306 to contract, when the second transmission roller 306 rotates to make the permanent magnetic strip 403 far away from the permanent magnetic column 402, at this time, the permanent magnetic column 402 and the permanent magnetic strip 403 repel each other, and then the U-shaped plate 305 drives the second transmission roller 306 to extend, so that the second transmission roller 306 can continuously extend and contract when the yarn moves, and then the yarn is intermittently tensioned and loosened, and further the distance between the bundled yarns is increased, so that the dye can rapidly dye the yarn inside.

Be equipped with in fan-shaped frame 401 and carry out magnetized magnetization mechanism 5 to the dyestuff in the dip-dye box 1, magnetization mechanism 5 is including seting up the arc chamber 501 of bottom in fan-shaped frame 401, a plurality of hydrojet holes 502 have been seted up at the top in arc chamber 501, spout 304 is through one-way imbibition passageway 503 and U type piece 301 below space intercommunication, spout 304 inner wall passes through one-way liquid outlet channel 504 and arc chamber 501 intercommunication, U type piece 301 top opening part is provided with arc 505, the inboard space of opening of U type piece 301 passes through liquid outlet channel 506 and rather than below space intercommunication.

It should be noted that the one-way intake passage 503 allows the dye to enter the slide groove 304 only from the exhaust box 1, and the one-way outlet passage 504 allows the dye to enter the arc-shaped chamber 501 only from the slide groove 304.

The plurality of liquid spray holes 502 are tapered with a narrow top and a wide bottom, and the plurality of liquid discharge channels 506 are arranged close to the side wall of the fan-shaped frame 401.

Further, when the U-shaped plate 305 continuously moves on the inner wall of the sliding chute 304, the dye in the dip dyeing box 1 is sprayed upwards into the fan-shaped frame 401 through the liquid spraying hole 502 by the arc-shaped cavity 501, the pressure born by the dye is increased due to the tapered design of the liquid spraying hole 502 with a narrow top and a wide bottom, so that the number of cluster water molecules in the dye water is reduced, the stability of the cluster water molecules is reduced, the cluster water molecules are easily separated, the dye is easily magnetized when passing through the plurality of permanent magnet columns 402 after being sprayed upwards, and small cluster water is easily formed due to the fact that the dye is in a high-speed and high-pressure state, so that the magnetized state is easily maintained, the dye partially enters the U-shaped block 301 after being sprayed from bottom to top and then flows into the dip dyeing box 1 through the liquid discharge channel 506, so that the dye in the dip dyeing box 1 is continuously magnetized, the speed of the dye for completely permeating the yarns is increased, so that the printing and dyeing efficiency of the yarns is increased;

meanwhile, a part of dye is rebounded to the bottom after being blocked by the arc-shaped plate 505 and is sprayed to the arc-shaped plate 505 again after being converged with the continuously sprayed dye, so that the part of dye also forms local turbulence at the bottom of the fan-shaped frame 401 and moves back and forth, further the magnetization time of the part of dye is prolonged, the movement route is changed all the time, namely, the part of dye is magnetized for many times in magnetic fields with different strengths, the deep magnetization effect is achieved, the magnetization degree of the part of dye is deep, and further the printing and dyeing efficiency of yarns is accelerated.

Be equipped with on the dip-dye box 1 and carry out the partition mechanism 8 that separates to the yarn, partition mechanism 8 includes fixed frame 801 of fixed connection in the dip-dye box 1 lateral wall, fixed frame 801 inner wall rotates and is connected with a plurality of horizontal poles 806, coaxial arrangement has a plurality of impellers 802 on horizontal pole 806, horizontal pole 806 one end runs through the dip-dye box 1 lateral wall and extends to its inside, horizontal pole 806 is located the lateral wall of dip-dye box 1 and extends its radial a plurality of spacer rods 803 of fixedly connected with, be provided with air conditioning passageway 804 in the fixed frame 801 lateral wall, the air conditioning output of vortex tube 701 passes through air conditioning passageway 804 and fixed frame 801's inner space intercommunication.

Further, when the plurality of separation rods 803 rotate, the plurality of separation rods 803 separate the collected yarns, so that the space between the plurality of yarns is larger, and the dye can more easily permeate into the yarns.

A plurality of air outlets 805 are communicated with the cold air passage 804, and the air outlets 805 are inclined toward the impeller 802, and the impeller 802 is driven to rotate by the ejected air flow.

According to the invention, dye is added into the dip-dyeing box 1 and is positioned below the liquid drainage channels 506, and the yarn sequentially passes through the heating box 606, the first transmission roller 302, the second transmission rollers 306 and the two squeezing rollers 303 and then is connected with external collection equipment, so that when the external collection equipment winds the dyed yarn, the yarn can move in the heating box 606 and the dip-dyeing box 1;

electrifying the inside of the atomizing plate 603 to vibrate the atomizing plate 603 at a high frequency, further vibrating the water in the water tank 601 into water mist by the atomizing plate 603, simultaneously starting the fan 605, further blowing the water mist generated in the water tank 601 into the sleeve 604 by the fan 605, introducing high-pressure gas into the vortex tube 701 through the air inlet pipe 702, further generating hot gas and cold gas in the vortex tube 701 respectively by the high-pressure gas, further leading the hot gas to enter the spiral tube 703 through the hot gas pipe 704, then flowing out through the steam pipe 607 to enable the hot gas to continuously flow in the spiral tube 703, further effectively heating the water mist entering the sleeve 604, discharging the heated water mist into the heating box 606 through the steam pipe 607 when the hot gas is discharged, further heating and humidifying the yarns in the heating box 606, further increasing the affinity of the yarns for the dye, and further increasing the coloring effect;

then when the yarn moves in the dip dyeing box 1, the dye can permeate into the yarn, and then the yarn is dyed, while the yarn travels over the second transfer roller 306 to rotate the second transfer roller 306, when the second transfer roller 306 rotates to make the permanent magnet bars 403 close to the permanent magnet columns 402, at this time, the permanent magnet columns 402 and the permanent magnet bars 403 attract each other, and the suction force is enough to overcome the elastic force of the spring 307, so that the U-shaped plate 305 drives the second transmission roller 306 to contract, when the second transmission roller 306 rotates to make the permanent magnetic strips 403 far away from the permanent magnetic columns 402, at this time, the permanent magnetic columns 402 and the permanent magnetic strips 403 repel each other, and then the U-shaped plate 305 drives the second transmission roller 306 to extend, so that, the second transfer roller 306 may be continuously retracted as the yarn moves, thereby intermittently tensioning and loosening the yarn, further increasing the space between the bunched yarns, so that the dye can quickly dye the inner yarns;

meanwhile, when the U-shaped plate 305 drives the second transmission roller 306 to continuously extend and retract, the space in the sliding chute 304 is intermittently increased and decreased, the dye in the dip dyeing box 1 is intermittently pumped into the arc-shaped cavity 501 by the sliding chute 304 under the action of the one-way liquid suction channel 503 and the one-way liquid outlet channel 504, so that the pressure in the arc-shaped cavity 501 is higher, the dye is sprayed out from the arc-shaped cavity 501 through the plurality of liquid spraying holes 502 at a high speed, the dye is sprayed upwards and passes through the plurality of permanent magnet columns 402, the dye is magnetized at the moment, the dye is sprayed from bottom to top, then the part of the dye enters the U-shaped block 301 after being blocked by the arc-shaped plate 505, then the dye flows into the dip dyeing box 1 through the liquid discharge channel 506, so that the dye in the dip dyeing box 1 is continuously magnetized, the dyeing efficiency of yarns is improved, and the other part of the dye is sprayed to the arc-shaped plate 505 after being blocked by the bottom of the fan-shaped frame 401, and is converged with the continuously sprayed dye, the magnetization degree of the dye is deep, and the printing and dyeing efficiency of the yarn is further accelerated;

the air conditioning that produces in vortex tube 701 passes through air conditioning passageway 804 and spouts from air jet 805 at a high speed, and then drive a plurality of impellers 802 and rotate fast, and then a plurality of impellers 802 drive a plurality of spacer bars 803 through a plurality of horizontal poles 806 and rotate the time, make a plurality of spacer bars 803 separate in the yarn after the cluster, make the interval between a plurality of yarns great, make inside the easier infiltration of dyestuff to the yarn, dye in dip-dyeing case 1 back, the yarn flows out through frame mouth 2 behind two squeeze roll 303, make two squeeze roll 303 can carry out the coining to the yarn, increase its look effect, can also extrude unnecessary dyestuff in the yarn simultaneously, avoid the dyestuff extravagant.

Claims

1. A pure cotton textile yarn printing and dyeing system comprises a dip dyeing box (1) and is characterized in that two frame openings (2) are formed above the inner wall of the dip dyeing box (1), a steam-heat mechanism (6) for performing steam-heat treatment on yarns is fixedly connected to the side wall of the dip dyeing box (1), a pump-air mechanism (7) for pumping hot air into the dip dyeing box (6) is fixedly connected to the steam-heat mechanism (6), a separation mechanism (8) for separating yarns is arranged on the dip dyeing box (1), the steam-heat mechanism (6) comprises a water tank (601) fixedly connected to the side wall of the dip dyeing box (1), the bottom of the water tank (601) is connected with a water adding pipe (602), an atomization plate (603) is installed in the water tank (601), the top of the water tank (601) is connected with a sleeve (604), a fan (605) is installed in the sleeve (604), a heating box (606) is installed on one side of the dip dyeing box (1), the upper end of the sleeve (604) is communicated with the heating box (606) through a steam pipe (607);

the yarn dip-dyeing machine is characterized in that a transmission mechanism (3) for transmitting yarns is fixedly connected in the dip-dyeing box (1), the transmission mechanism (3) comprises a U-shaped block (301) fixedly connected to the inner wall of the dip-dyeing box (1), the side wall, close to the heating box (606), of the U-shaped block (301) is fixedly connected with a first transmission roller (302) through a support, two extrusion rollers (303) are mounted on the side wall, far away from the heating box (606), of the U-shaped block (301), a plurality of sliding grooves (304) are uniformly formed in the outer side wall of the U-shaped block (301), the inner wall of each sliding groove (304) is connected with a U-shaped plate (305) in a sealing and sliding mode, a second transmission roller (306) is mounted at one end part, located inside the corresponding sliding groove (304), of the U-shaped plate (305) is elastically connected with the inner wall of the corresponding sliding groove (304) through a spring (307);

the U-shaped block (301) is fixedly connected with a driving mechanism (4) for driving the plurality of second transmission rollers (306) to move, the driving mechanism (4) comprises a fan-shaped frame (401) fixedly connected to the inner side wall of the U-shaped block (301), the inner wall of the fan-shaped frame (401) is fixedly connected with a plurality of permanent magnetic columns (402) which correspond to the second transmission rollers (306) one by one, and permanent magnetic strips (403) are embedded in the second transmission rollers (306);

be equipped with in fan-shaped frame (401) and carry out magnetized magnetization mechanism (5) to the dyestuff in the dip-dye box (1), magnetization mechanism (5) are including offering arc chamber (501) of bottom in fan-shaped frame (401), a plurality of hydrojet holes (502) have been seted up at the top in arc chamber (501), spout (304) are through one-way imbibition passageway (503) and U type piece (301) below space intercommunication, spout (304) inner wall is through one-way bleeder channel (504) and arc chamber (501) intercommunication, U type piece (301) top opening part is provided with arc (505), the inboard space of opening of U type piece (301) passes through bleeder channel (506) and rather than below space intercommunication.

2. The pure cotton textile yarn dyeing system according to claim 1, characterized in that the air pumping mechanism (7) comprises a vortex tube (701) fixedly connected to the side wall of the water tank (601), the input end of the vortex tube (701) is communicated with an air inlet pipe (702), a spiral pipe (703) is arranged in the sleeve (604), and the hot air output end of the vortex tube (701) is communicated with the input end of the spiral pipe (703) through a hot air pipe (704).

3. The pure cotton textile yarn dyeing system according to claim 1, characterized in that the liquid spraying holes (502) are in the shape of a cone with a narrow top and a wide bottom, and the liquid discharging channel (506) is arranged near the side wall of the fan-shaped frame (401).

4. The pure cotton textile yarn printing and dyeing system according to claim 2, characterized in that the partition mechanism (8) comprises a fixing frame (801) fixedly connected to the side wall of the dip-dyeing tank (1), the inner wall of the fixing frame (801) is rotatably connected with a plurality of cross rods (806), a plurality of impellers (802) are coaxially mounted on the cross rods (806), one end of each cross rod (806) penetrates through the side wall of the dip-dyeing tank (1) and extends into the dip-dyeing tank, the cross rods (806) are positioned on the side wall of the dip-dyeing tank (1) and are fixedly connected with a plurality of partition rods (803) along the radial direction of the side wall, a cold air channel (804) is arranged in the side wall of the fixing frame (801), and the cold air output end of the vortex tube (701) is communicated with the inner space of the fixing frame (801) through the cold air channel (804).

5. The pure cotton textile yarn dyeing system according to claim 4, characterized in that a plurality of air nozzles (805) are connected to the cold air channel (804), the air nozzles (805) are inclined towards the impeller (802), and the impeller (802) is driven to rotate by the ejected air flow.