CN214938464U - Cloth discharging structure of airflow dyeing machine - Google Patents

Abstract

The utility model relates to an air current dyeing machine goes out cloth structure relates to air current dyeing machine's technical field, including setting up the play cloth device on air current dyeing machine, the play cloth device includes a cloth discharging frame, extrusion mechanism, backflow mechanism, and a cloth discharging frame sets up on air current dyeing machine, and extrusion mechanism sets up on a cloth discharging frame and is used for extrudeing the cloth, and backflow mechanism sets up on a cloth discharging frame and is used for catching the dye liquor that the cloth dropped and communicates with air current dyeing machine. This application starts and extrudes dye liquor in the cloth through extrusion mechanism, and the dye liquor of extruding drops among the backward flow mechanism among the backward flow chromosome of backward flow to this probability that has reduced dye liquor in the cloth and dropped in the environment has reduced the waste of dye liquor, has also reduced the probability that the dye liquor led to the fact the pollution to the environment simultaneously.

Description

Cloth discharging structure of airflow dyeing machine

Technical Field

The application relates to the technical field of airflow dyeing machines, in particular to a cloth discharging structure of an airflow dyeing machine.

Background

Gas flow dyeing is comparable to conventional liquid flow dyeing machines in that the fabric is circulated by means of a gas channel containing moisture or water vapour, and almost all fibre materials and mixtures thereof can be bleached and dyed without the need for a dye liquor or aqueous medium to transport the fabric. The most important characteristic is that the consumption of dye, chemical auxiliary agent and energy is greatly reduced.

Among the correlation technique, can refer to the chinese utility model patent that the grant bulletin number is CN204608376U, it discloses an air current dyeing machine, include the barrel and connect in the fabric guide of barrel, be equipped with atomizing nozzle on the fabric guide, be equipped with the dye liquor supply pipe on the outer wall of fabric guide, be equipped with the last appearance chamber with the dye liquor supply pipe intercommunication in the wall body of fabric guide, go up to hold and be equipped with the last spout with the inside intercommunication of fabric guide on the lateral wall that the dye liquor supply pipe was kept away from to the chamber, the orientation of going up the spout is in the same direction as the fabric removes. The utility model discloses an airflow dyeing machine has better dye uptake and levelling nature, and is effectual to the washing of fabric moreover.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: after the cloth dyeing is finished, a large amount of dye liquor is contained in the cloth, so that after the cloth is output from the barrel, the dye liquor in the cloth easily drops into the environment, a large amount of waste of the dye liquor is caused, and the environment is also polluted by the dye liquor.

SUMMERY OF THE UTILITY MODEL

In order to reduce the waste of dye liquor, the application provides a cloth outlet structure of an airflow dyeing machine.

The application provides a pair of air current dyeing machine goes out cloth structure adopts following technical scheme:

the utility model provides an air current dyeing machine goes out cloth structure, is including setting up the play cloth device on the air current dyeing machine, it includes a cloth frame, extrusion mechanism, backflow mechanism to go out the cloth device, a cloth frame sets up on the air current dyeing machine, extrusion mechanism sets up on a cloth frame and is used for extrudeing the cloth, backflow mechanism sets up on a cloth frame and is used for catching the dye liquor that the cloth dropped and communicates with the air current dyeing machine.

By adopting the technical scheme, the cloth penetrates through the extrusion mechanism, the extrusion mechanism starts to extrude the cloth to extrude the dye liquor in the cloth, and the extruded dye liquor falls into the backflow mechanism and flows back to the air current chromosome, so that the probability that the dye liquor in the cloth falls into the environment is reduced, the waste of the dye liquor is reduced, and meanwhile, the probability that the dye liquor pollutes the environment is also reduced.

Optionally, the pressing mechanism comprises a fixed pressing roller, a sliding block, a dynamic pressing roller and a lifting assembly, the fixed pressing roller is rotatably arranged on the cloth discharging frame, the sliding block is slidably arranged on the cloth discharging frame, the dynamic pressing roller is rotatably arranged on the sliding block, and the lifting assembly is arranged on the cloth discharging frame and is connected with the sliding block.

Through adopting above-mentioned technical scheme, lifting unit starts to drive the sliding block and removes, and the sliding block removes to drive dynamic pressure roller and keeps away from the compression roller surely, then passes the driven compression roller of cloth and decide between the compression roller, and lifting unit starts to drive the dynamic pressure roller and is close to the compression roller surely after that, therefore dynamic pressure roller and the cooperation of compression roller press the cloth surely to this dye liquor of extruding in the cloth.

Optionally, the backflow mechanism includes a backflow box and a backflow pipe, the backflow box is arranged on the cloth discharging frame and used for receiving the dye liquor dropped from the cloth, and two ends of the backflow pipe are respectively communicated with the backflow box and the airflow dyeing machine.

By adopting the technical scheme, the dye liquor extruded from the cloth is received by the backflow box, and then the dye liquor flows back into the airflow dyeing machine through the backflow pipe, so that the dye liquor extruded from the cloth is recovered.

Optionally, the compression roller and the dynamic pressure roller are located in a return box, the return box is provided with a cloth inlet hole and a cloth outlet hole for cloth to pass through, and a recovery device is arranged on the return box and on one side of the extrusion mechanism away from the airflow dyeing machine.

Through adopting above-mentioned technical scheme, the cloth advances the cloth hole and gets into the backward flow incasement and extrudees, gets into recovery unit after the extrusion and retrieves remaining dye liquor in the cloth, and the cloth is followed out cloth hole output backward flow case outside at last, and the probability that the dye liquor dropped in the environment when consequently having reduced the extrusion cloth, and recovery unit further retrieves remaining dye liquor in the cloth, has reduced the waste of dye liquor.

Optionally, the recovery unit includes drying fan, heating pipe, condensation subassembly, drying fan sets up on the backward flow case and the air outlet is towards the cloth and is located the cloth top, the heating pipe sets up on the backward flow case and is arranged in vaporizing the dye liquor in the cloth, the condensation subassembly sets up on the backward flow case and is used for becoming liquid dye liquor with the dye liquor condensation of vaporization.

Through adopting above-mentioned technical scheme, drying fan starts, and the heating pipe starts, therefore the hot-air heats the cloth for dye liquor vaporization in the cloth, the dye liquor of vaporization moves to the condensation subassembly and carries out the condensation and become liquid dye liquor, then retrieves liquid dye liquor, realizes retrieving remaining dye liquor in the cloth with this.

Optionally, the condensation subassembly includes condensation plate, condensing box, condensate pump, feed liquor pipe and drain pipe, the through-hole that supplies the dye liquor to pass through is seted up to the condensation plate setting on the flow-back box and inside cooling chamber and equipartition seted up, the cooling box setting just is equipped with the coolant liquid on the flow-back box, the condensate pump sets up on the condensing box, the feed liquor pipe set up on the condensate pump and with cooling chamber intercommunication, the drain pipe setting on the condensation plate and with cooling chamber and condensing box intercommunication.

By adopting the technical scheme, the condensing pump is started, the cooling liquid enters the cooling cavity through the liquid inlet pipe, then flows back into the condensing box through the liquid outlet pipe, so that the cooling liquid cools the condensing plate, and after the vaporized dye liquid moves onto the condensing plate, the condensing plate condenses the vaporized dye liquid into liquid dye liquid, so that the vaporized dye liquid is condensed into liquid dye liquid.

Optionally, the dynamic pressure roller is provided with two sections of stentering threads which have opposite spiral lines and are used for stentering the cloth, and the return tank is provided with a rotating motor connected with the constant pressure roller.

Through adopting above-mentioned technical scheme, the stentering screw thread carries out the stentering to the cloth, rotates the motor start-up and drives the level pressure roller and rotate, consequently level pressure roller and dynamic pressure roller cooperation drive the cloth and remove to this has reduced the probability that the fold took place for the cloth, has consequently improved the stoving effect of drying fan to the cloth, has improved the recovery effect to dye liquor in the cloth, has reduced the waste of dye liquor.

Optionally, the return box is inclined and has a lower height near one end of the airflow dyeing machine than at an end remote from the airflow dyeing machine.

Through adopting above-mentioned technical scheme, the backward flow case is the tilt state to this has improved the speed that the dye liquor flows back in the air current dyeing machine, has further improved the recovery effect to the dye liquor, has reduced the waste of dye liquor.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the extrusion mechanism is started to extrude the dye liquor in the cloth, and the extruded dye liquor falls into the backflow mechanism and flows back into the airflow chromosome, so that the probability that the dye liquor in the cloth falls into the environment is reduced, the waste of the dye liquor is reduced, and the probability that the dye liquor pollutes the environment is also reduced;

2. the dye liquor is extruded in the backflow box through the cloth feeding hole, the extruded dye liquor enters the recovery device to recover the residual dye liquor in the cloth, and finally the cloth is output out of the backflow box through the cloth discharging hole, so that the probability that the dye liquor falls into the environment when the cloth is extruded is reduced, the recovery device further recovers the residual dye liquor in the cloth, and the waste of the dye liquor is reduced;

3. the drying fan is started, the heating pipe is started to vaporize the dye liquor in the cloth, the vaporized dye liquor is moved to the condensing assembly to be condensed into liquid dye liquor, then the liquid dye liquor is recycled, so that the residual dye liquor in the cloth is recycled, and the waste of the dye liquor is reduced.

Drawings

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

FIG. 2 is a schematic structural view of a cloth discharging device and a cloth recovering device in the present application, wherein the side wall of a return box is cut away;

fig. 3 is a schematic structural view of a condensing assembly according to the present application, in which a side wall of a condensing plate is cut away.

Reference numerals: 1. an airflow dyeing machine; 11. a cloth outlet; 2. a cloth discharging device; 21. a cloth discharging frame; 3. an extrusion mechanism; 31. a compression roller is fixed; 32. a sliding block; 33. a movable pressure roller; 331. expanding the thread; 34. a lifting assembly; 4. a reflux mechanism; 41. a return tank; 42. a return pipe; 43. a cloth inlet hole; 44. a cloth outlet hole; 45. a bellows; 46. mounting holes; 5. a recovery device; 51. drying the fan; 52. heating a tube; 53. a condensing assembly; 54. a condensing plate; 541. a cooling chamber; 542. a through hole; 55. a condenser tank; 56. a condensate pump; 57. a liquid inlet pipe; 58. a liquid outlet pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses air current dyeing machine goes out cloth structure.

Referring to fig. 1, the cloth outlet structure of the airflow dyeing machine includes a cloth outlet device 2 disposed on the airflow dyeing machine 1, and a cloth outlet 11 for discharging cloth is disposed on the airflow dyeing machine 1 and at the position of the cloth outlet device 2.

Referring to fig. 1 and 2, the cloth discharging device 2 includes a cloth discharging frame 21, a squeezing mechanism 3, and a backflow mechanism 4, the cloth discharging frame 21 is fixedly installed on the outer side wall of the airflow dyeing machine 1, and the cloth discharging frame 21 is located above the cloth discharging port 11; the extrusion mechanism 3 is arranged on the cloth outlet frame 21 and is used for extruding the cloth, and the backflow mechanism 4 is arranged on the cloth outlet frame 21 and is used for receiving the dye liquor dropped from the cloth and communicated with the cloth outlet 11.

Referring to fig. 1 and 2, the return mechanism 4 includes a return tank 41 and a return pipe 42, the return tank 41 is fixedly installed on an end of the cloth discharge frame 21 far from the cloth discharge opening 11, and the return tank 41 is in an inclined state, while a height of the return tank 41 near the end of the airflow dyeing machine 1 is lower than a height of the return tank 41 far from the end of the airflow dyeing machine 1.

Referring to fig. 1 and 2, a cloth inlet hole 43 and a cloth outlet hole 44 are respectively formed on two side walls of the return box 41 close to and far from the airflow dyeing machine 1, and the cloth outlet hole 44 is located on one side of the cloth inlet hole 43 far from the cloth outlet 11; the return pipe 42 is fixedly arranged on the lower surface of the return box 41 and is positioned at one side close to the airflow dyeing machine 1; meanwhile, one end of the return pipe 42, which is far away from the return tank 41, is arranged obliquely downwards and coaxially and fixedly provided with a corrugated pipe 45, the corrugated pipe 45 has scalability, and the corrugated pipe 45 is positioned outside the cloth outlet 11 and can extend into the cloth outlet 11.

Referring to fig. 1 and 2, the squeezing mechanism 3 is arranged on the return tank 41, the squeezing mechanism 3 comprises a fixed pressure roller 31, a sliding block 32, a dynamic pressure roller 33 and a lifting assembly 34, the fixed pressure roller 31 is horizontally hinged on the return tank 41, and a rotating motor connected with the fixed pressure roller 31 is fixedly installed on the outer side wall of the return tank 41; the two sliding blocks 32 are arranged and slidably mounted on the two opposite inner side walls of the return box 41, meanwhile, the sliding blocks 32 are positioned above the fixed pressure roller 31, and the movable pressure roller 33 is horizontally hinged on the two opposite side walls of the two sliding blocks 32.

Referring to fig. 1 and 2, the dynamic pressure roller 33 is provided with two sections of expanding threads 331 with opposite spiral lines, and the expanding threads 331 are used for flattening the cloth. The lifting assembly 34 is a lifting cylinder fixedly mounted on the upper surface of the return box 41, and a piston rod of the lifting cylinder passes through the return box 41 and is fixedly connected with the upper surface of the sliding block 32.

Referring to fig. 1 and 2, the cloth enters the return tank 41 through the cloth inlet 43, then the cloth passes through between the fixed pressure roller 31 and the movable pressure roller 33, finally the cloth is output out of the return tank 41 through the cloth outlet 44, the lifting cylinder is started to drive the sliding block 32 to move, the sliding block 32 moves to drive the movable pressure roller 33 to be close to the fixed pressure roller 31, and the movable pressure roller 33 and the fixed pressure roller 31 are matched to extrude the cloth.

Referring to fig. 1 and 2, a recovery device 5 is arranged on the return tank 41 and on one side of the positioning press roller 31 close to the cloth outlet hole 44, the recovery device 5 comprises a drying fan 51, a heating pipe 52 and a condensing assembly 53, and a plurality of mounting holes 46 are formed on the upper surface of the return tank 41 and on one side of the positioning press roller 31 close to the cloth outlet hole 44; drying fan 51 is installed on mounting hole 46 in the joint, and drying fan 51 air outlet is towards the cloth.

Referring to fig. 1 and 2, the heating pipe 52 is fixedly installed on the inner side wall of the return box 41, the heating pipe 52 is located below the drying fan 51 and above the fabric, and the heating pipe 52 is used for vaporizing the dye solution in the fabric.

Referring to fig. 2 and 3, a condensing unit 53 is disposed on the return tank 41 and is used for condensing the vaporized dye liquor into liquid dye liquor, and the condensing unit 53 includes a condensing plate 54, a condensing tank 55, a condensing pump 56, a liquid inlet pipe 57 and a liquid outlet pipe 58.

Referring to fig. 2 and 3, the condensing plate 54 is fixedly installed on the inner sidewall of the return tank 41, and the condensing plate 54 is located below the pressure-fixing roller 31; meanwhile, a cooling cavity 541 is formed in the condensing plate 54, through holes 542 penetrating through the upper surface and the lower surface of the condensing plate 54 are uniformly distributed on the condensing plate 54, and the through holes 542 are convenient for dye liquor to pass through; the condenser box 55 is fixedly arranged on the lower surface of the return box 41, and cooling liquid is filled in the condenser box 55; the condensate pump 56 is fixedly installed on the outer side wall of the condensation tank 55, and the condensate pump 56 is communicated with the inside of the condensation tank 55.

Referring to fig. 2 and 3, the liquid inlet pipe 57 is fixedly installed on the condensate pump 56, and one end of the liquid inlet pipe 57 far away from the condensate pump 56 penetrates through the return tank 41 and is fixedly connected with the condensing plate 54; and the liquid outlet pipe 58 is fixedly installed on the side wall of the side of the condensing plate 54 far away from the liquid inlet pipe 57, one end of the liquid outlet pipe 58 far away from the condensing plate 54 penetrates through the return tank 41 and is fixedly connected with the condensing tank 55, meanwhile, the liquid inlet pipe 57 and the liquid outlet pipe 58 are both communicated with the cooling cavity 541, and the liquid outlet pipe 58 is communicated with the condensing tank 55.

The working principle of the embodiment of the application is as follows:

the corrugated pipe 45 is pulled to extend into the cloth outlet 11, the cloth is pulled out from the cloth outlet 11, the lifting cylinder is started to drive the dynamic pressure roller 33 to be far away from the fixed pressure roller 31, then the cloth enters the return box 41 from the cloth inlet 43, then the cloth passes between the dynamic pressure roller 33 and the fixed pressure roller 31, then the cloth passes between the heating pipe 52 and the condensing plate 54, finally the cloth is output from the cloth outlet 44 to the return box 41, the lifting cylinder is started to drive the dynamic pressure roller 33 to be close to the fixed pressure roller 31 to press the cloth, so that the dye liquor in the cloth is extruded, and the dye liquor sequentially passes through the through hole 542, the return pipe 42 and the corrugated pipe 45 and returns to the cloth outlet 11, so that the dye liquor returns to the airflow dyeing machine 1.

The rotating motor is started to drive the fixed compression roller 31 to rotate, so that the fixed compression roller 31 and the dynamic pressure roller 33 rotate to drive the cloth to move, the spreading threads 331 are used for spreading the cloth, the drying fan 51 is started, the heating pipe 52 is started to vaporize the dye liquid in the cloth, the vaporized dye liquid moves downwards to the condensing plate 54, the condensing pump 56 is started, the cooling liquid in the condensing box 55 enters the cooling cavity 541 through the liquid inlet pipe 57, and then the cooling liquid flows back into the condensing box 55 through the liquid outlet pipe 58, so that the condensing plate 54 is cooled by the cooling liquid, the vaporized dye liquid is condensed into liquid dye liquid after being cooled by the condensing plate 54, and the liquid dye liquid flows back into the airflow dyeing machine 1 through the through hole 542 for recycling, thereby reducing the probability that the dye liquid in the cloth falls into the environment, reducing the waste of the dye liquid, and simultaneously reducing the probability that the dye liquid pollutes the environment. After the cloth is completely output from the airflow dyeing machine 1, the bellows 45 is pulled to move to the outside of the cloth outlet 11, so that the cloth outlet 11 can be closed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an air current dyeing machine goes out cloth structure which characterized in that: including setting up play cloth device (2) on airflow dyeing machine (1), go out cloth device (2) including go out cloth holder (21), extrusion mechanism (3), backward flow mechanism (4), go out cloth holder (21) and set up on airflow dyeing machine (1), extrusion mechanism (3) set up on go out cloth holder (21) and are used for extrudeing the cloth, backward flow mechanism (4) set up on going out cloth holder (21) and are used for catching the dye liquor that the cloth dropped and communicate with airflow dyeing machine (1).

2. The fabric discharge structure of an airflow dyeing machine according to claim 1, characterized in that: extrusion mechanism (3) are including deciding compression roller (31), sliding block (32), dynamic pressure roller (33) and lifting unit (34), decide compression roller (31) and rotate and set up on cloth discharging frame (21), sliding block (32) slide and set up on cloth discharging frame (21), dynamic pressure roller (33) rotate and set up on sliding block (32), lifting unit (34) set up on cloth discharging frame (21) and be connected with sliding block (32).

3. The fabric discharge structure of an airflow dyeing machine according to claim 2, characterized in that: the backflow mechanism (4) comprises a backflow box (41) and a backflow pipe (42), the backflow box (41) is arranged on the cloth discharging frame (21) and used for receiving dye liquor dropping from cloth, and two ends of the backflow pipe (42) are respectively communicated with the backflow box (41) and the airflow dyeing machine (1).

4. A fabric discharge structure of a gas flow dyeing machine as claimed in claim 3, characterized in that: the compression roller (31) and the dynamic pressure roller (33) are positioned in a return box (41), a cloth inlet hole (43) and a cloth outlet hole (44) for cloth to pass through are formed in the return box (41), and a recovery device (5) is arranged on the return box (41) and on one side, away from the airflow dyeing machine (1), of the extrusion mechanism (3).

5. The fabric discharge structure of an airflow dyeing machine according to claim 4, characterized in that: recovery unit (5) are including drying fan (51), heating pipe (52), condensation subassembly (53), drying fan (51) set up on backward flow case (41) and the air outlet is towards the cloth and is located the cloth top, heating pipe (52) set up on backward flow case (41) and are arranged in the dye liquor vaporization in the cloth, condensation subassembly (53) set up on backward flow case (41) and are used for condensing the dye liquor of vaporization into liquid dye liquor.

6. The fabric discharge structure of an airflow dyeing machine according to claim 5, characterized in that: condensation subassembly (53) include condensing panel (54), condensing box (55), condensate pump (56), feed liquor pipe (57) and drain pipe (58), condensing panel (54) set up on backward flow case (41) and inside offer cooling chamber (541) and the equipartition offer through-hole (542) that supply the dye liquor to pass through, condensing box (55) set up on backward flow case (41) and are equipped with the coolant liquid, condensate pump (56) set up on condensing box (55), feed liquor pipe (57) set up on condensing pump (56) and with cooling chamber (541) intercommunication, drain pipe (58) set up on condensing panel (54) and with cooling chamber (541) and condensing box (55) intercommunication.

7. A fabric discharge structure of a gas flow dyeing machine as claimed in claim 3, characterized in that: the dynamic pressure roller (33) is provided with two sections of expanding threads (331) which have opposite spiral lines and are used for expanding the cloth, and the return box (41) is provided with a rotating motor connected with the constant pressure roller (31).

8. A fabric discharge structure of a gas flow dyeing machine as claimed in claim 3, characterized in that: the backflow box (41) is in an inclined state, the height of one end, close to the airflow dyeing machine (1), of the backflow box is lower than that of one end, far away from the airflow dyeing machine (1), and a corrugated pipe (45) capable of extending into the airflow dyeing machine (1) is arranged on the backflow pipe (42).

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