CN112226961A

CN112226961A - Continuous decating machine

Info

Publication number: CN112226961A
Application number: CN202011072134.6A
Authority: CN
Inventors: 王益飞; 汪东晓; 黄忠
Original assignee: Bosen Textile Technology Co ltd
Current assignee: Bosen Textile Technology Co ltd
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2021-01-15

Abstract

The invention discloses a cloth conveying structure for a continuous decating machine, which enables a wool fabric to enter and exit a decating box and a cooling box for multiple times in the conveying process, and can be continuously heated and steamed for multiple times through the conveying structure, so that the wool fabric is more stable in shape and not easy to deform, the hand feeling is rich and fluffy, the appearance luster is soft, the wool fabric is more delicate, the structure is simple, and the popularization is convenient.

Description

Continuous decating machine

Technical Field

The invention relates to the technical field of decating machines, in particular to a continuous decating machine.

Background

Decating is a process for dyeing and finishing wool fabric. Through steaming, the wool fabric is stable in shape and not easy to deform, and the wool fabric is rich and fluffy in hand feeling and soft in appearance luster. The chemical fiber wool-like fabric also needs to be subjected to a decating process to improve the wool-like effect. An open type, namely an intermittent normal pressure decating mode. Before steaming, the wool fabric and the cotton lining cloth are flatly wound on a porous decating roller together, the outside of the roller is wrapped by the lining cloth, and steam is introduced into the roller to permeate the wool fabric. After a certain process time, the steam suction cooling is stopped. And then the fabric is turned around and wound and is steamed again to ensure the consistency of the steamed fabrics of the inner and outer rings. The tank type is an intermittent high-pressure decating mode. The sprayed and moistened wool fabric is sandwiched between lining cloth and wound on a decating roller, the lining cloth is coated on an outer ring, then the lining cloth is put into a closed pressure tank, and then steam passes through the wool fabric from inside to outside and then from outside to inside alternately and repeatedly. The fabric subjected to high-pressure decating has a relatively durable shaping effect. In the continuous mode, the wool fabric continuously passes between the annular lining blanket and the plurality of porous large decating rollers, is cooled by suction cold air after the action of steam, and finishes the decating process in the forward movement. The decating mode has low labor intensity and high continuity, but the decating effect is slightly inferior to the two modes. The existing decating machine can not continuously heat and decatize, so that the wool fabric is unstable in shape and easy to deform, the hand feeling is not rich and fluffy, and the appearance luster is not soft.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a continuous decating machine.

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

a continuous decating machine comprises a decating box and a cooling box, wherein a cooling device is arranged in the cooling box, one side wall of the cooling box is connected with one side wall of the decating box, a first feed inlet is formed in one side wall, away from the cooling box, of the decating box, a discharging roller corresponding to the first feed inlet is arranged on the outer side of the decating box, a first lead-in roller is arranged in the decating box and corresponds to the first feed inlet, a first decating roller is arranged above one side, away from the first feed inlet, of the first decating roller, a second decating roller is arranged on one side, away from the first lead-in roller, of the first decating roller, a first lead-out roller is arranged below one side, away from the first decating roller, of the second decating roller, a first discharge outlet corresponding to the first lead-out roller is formed in the side wall, connected with the cooling box, a second feed inlet corresponding to the first discharge outlet is formed in the cooling box, a second guide-in roller corresponding to the second feed inlet is arranged in the cooling box, a second guide-out roller is arranged above one side, away from the second feed inlet, of the second guide-in roller, a second discharge outlet corresponding to the second guide-out roller is arranged on the side wall, away from the decating box, of the cooling box, a first guide roller corresponding to the second discharge outlet is arranged outside the cooling box, a third feed inlet is further arranged on the cooling box, the third feed inlet is positioned below the second discharge outlet, a third guide-in roller corresponding to the third feed inlet is arranged in the cooling box, a third guide-out roller is arranged above one side, away from the third feed inlet, of the third guide-in roller, a third discharge outlet corresponding to the third guide-out roller is arranged on the cooling box, a fourth feed inlet corresponding to the third discharge outlet is arranged on the decating box, and a fourth guide-in roller corresponding to the fourth feed inlet is arranged in the decating box, a third decating roller is arranged below the fourth guide roller, a fourth discharge port is formed in the decating box and is positioned below a fourth feed port, a fourth decating roller is arranged on one side, close to the fourth discharge port, of the third decating roller, a fourth guide roller is arranged above one side, far away from the third decating roller, of the fourth decating roller, the fourth guide roller corresponds to the fourth discharge port, a fifth feed port corresponding to the fourth discharge port is formed in the cooling box, a fifth guide roller corresponding to the fifth feed port is arranged in the cooling box, a fifth guide roller is arranged below one side, far away from the fifth feed port, of the fifth guide roller, a fifth guide roller is arranged below the cooling box and is provided with a fifth discharge port corresponding to the fifth guide roller, a material collecting roller corresponding to the fifth discharge port is arranged on the outer side of the cooling box, the material collecting roller is driven to rotate by a first rotating motor, and an exhaust port is further formed in the decating box, the exhaust port is communicated with a condenser box through an exhaust pipe, a condensing device is arranged in the condenser box, the condenser box is communicated with an air pump through an air outlet pipe, the air pump is connected with an air outlet, a condensate outlet is arranged at the bottom of the condenser box, the condensate outlet is connected with a condensate pipe, the condensate pipe is vertically arranged, and a water outlet is formed in the end portion of the condensate pipe.

According to the preferable technical scheme, a first tension adjusting device is arranged between the discharging roller and the first feeding hole, and a second tension adjusting device is arranged between the first guide roller and the third feeding hole.

According to the preferable technical scheme, the first tension adjusting device and the second tension adjusting device are consistent in structure, the first tension adjusting device and the second tension adjusting device are both located on the rack, the first tension adjusting device comprises a first swing arm which is vertically arranged, the upper end of the first swing arm is hinged with the rack, the lower end of the first swing arm is rotatably provided with a floating tension adjusting roller, the first swing arm is driven to swing through a first air cylinder, the tail end of the first air cylinder is hinged with the rack, the front end of the first air cylinder is hinged with the middle part of the first swing arm, the first tension adjusting device is further provided with a second guide roller and a third guide roller, the second guide roller is located below the floating tension adjusting roller, close to one side of the discharging roller, the third guide roller is located above the floating tension adjusting roller, close to one side of the discharging roller, and a fourth guide roller is arranged above the third guide roller, the fourth guide roller corresponds to the first feed port.

According to the preferable technical scheme, an auxiliary traction device for driving cloth is arranged between a first guide roller and a second discharge port, the auxiliary traction device is installed on a rack and comprises a driving traction roller, the driving traction roller is driven to rotate through a second rotating motor, a fifth guide roller and a sixth guide roller are respectively arranged on two sides of the driving traction roller, the fifth guide roller corresponds to the second discharge port, the driving traction roller is located below the fifth guide roller and the sixth guide roller, the auxiliary traction device further comprises a second swing arm horizontally arranged, one end of the second swing arm is hinged with the rack, a power-assisted press roller is rotationally arranged at the other end of the second swing arm, the power-assisted press roller is located below the driving traction roller and is pressed with the driving traction roller, the second swing arm is driven to swing through a second air cylinder, and the tail end of the second air cylinder is hinged with the rack, the front end of the second cylinder is hinged with the middle part of the second swing arm.

The preferred technical scheme, condensing equipment includes the condensation plate, the condensation plate includes the installing frame, the installing frame is installed on the lateral wall of condensing box, condenser pipe is installed to the inboard of installing frame, condenser pipe includes the straight portion that a plurality of levels set up, and is a plurality of straight portion parallel interval from top to bottom sets up, two from top to bottom the tip of straight portion passes through the kink intercommunication, makes condenser pipe buckles the setting from top to bottom in succession, the upper portion of condensing box is equipped with the cooling water import, the upper end intercommunication of cooling water import and condenser pipe, the lower part of condensing box is equipped with the cooling water export, the cooling water export communicates with the lower extreme of condenser pipe.

The preferred technical scheme, the quantity of condensing plate is two or more than two, and the straight portion crisscross setting on the adjacent condensing plate, wherein the horizontal position of the straight portion on a condensing plate is located between two corresponding straight portions on the adjacent condensing plate.

In a preferable technical scheme, a filtering device for filtering fluff is arranged in the condensate pipe.

According to the technical scheme, the filtering device comprises a filtering box, an opening is formed in one side of the condensate pipe and matched with the filtering box, the filtering box is inserted into the condensate pipe through the opening, the filtering box is arranged in a penetrating mode in the vertical direction, and a filtering net is arranged at the bottom end of the filtering box.

The preferred technical scheme, the bottom of condensing box is the throat shape setting from top to bottom, the comdenstion water export is located the least significant end of condensing box bottom.

Compared with the prior art, beneficial effect does:

the transmission mechanism has the advantages of simple structure and convenient use, can continuously heat and steam for multiple times, ensures that the wool fabric has more stable shape and is not easy to deform, has rich and fluffy hand feeling and soft appearance luster, ensures that the wool fabric is more delicate, has simple structure and is convenient to popularize.

Drawings

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

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of portion B of FIG. 1;

FIG. 4 is a schematic view of a cold plate according to the present invention;

FIG. 5 is a schematic view showing a positional relationship of flat portions in adjacent condensing plates according to the present invention;

FIG. 6 is a schematic view of a filter device according to the present invention.

Reference numerals: 1. a discharge roller; 2. a first lead-in roller; 3. a first decating roller; 4. a second decating roller; 5. a first delivery roll; 6. a second introduction roller; 7. a second delivery roller; 8. a first guide roller; 9. a third introduction roller; 10. a third delivery roll; 11. a fourth introduction roller; 12. a third decating roller; 13. a fourth decating roller; 14. a fourth delivery roll; 15. a fifth introduction roller; 16. a fifth delivery roller; 17. a material receiving roller; 18. a first tension adjusting device; 19. an auxiliary traction device; 20. a second tension adjusting device; 21. a first swing arm; 22. a floating dancer roll; 23. a second guide roller; 24. a third guide roller; 25. a fourth guide roller; 26. a first cylinder; 27. a second swing arm; 28. a power-assisted press roller; 29. a driving traction roller; 30. a fifth guide roller; 31. a sixth guide roller; 32. a second cylinder; 33. a decating box; 34. an exhaust pipe; 35. a condenser tank; 36. a condensing plate; 3601. installing a frame; 3602. a cooling water pipe; 36021. a straight portion; 36022. a bending section; 37. an air outlet pipe; 38. an air pump; 39. an air outlet; 40. a condensate pipe; 41. a filtration device; 4101. a filter cartridge; 4102. a filter screen; 42. a water outlet; 43. an exhaust port; 44. and a cooling tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

A continuous decating machine comprises a decating box 33 and a cooling box 44, wherein a cooling device is arranged in the cooling box 44, the cooling device is in the prior art and used for cooling decated wool fabrics, for example, a plurality of fans are arranged on the inner wall of the cooling box, one side wall of the cooling box 44 is connected with one side wall of the decating box 33, a first feed port is formed in the side wall, away from the cooling box 44, of the decating box 33, a discharging roller 1 corresponding to the first feed port is arranged on the outer side of the decating box 33, a first leading-in roller 2 is arranged in the decating box 33, the first leading-in roller 2 is arranged corresponding to the first feed port, a first decating roller 3 is arranged above one side, away from the first feed port, of the first decating roller 3, a second decating roller 4 is arranged on one side, away from the first leading-in roller 2, a first leading-out roller 5 is arranged below one side, away from the first decating roller 3, of the second decating roller 4, a first discharge hole corresponding to the first guide-out roller 5 is formed in the side wall, connected with the cooling box 44, of the decating box 33, a second feed hole corresponding to the first discharge hole is formed in the cooling box 44, a second guide-in roller 6 corresponding to the second feed hole is arranged in the cooling box 44, a second guide-out roller 7 is arranged above one side, far away from the second feed hole, of the second guide-in roller 6, a second discharge hole corresponding to the second guide-out roller 7 is formed in the cooling box 44, a first guide roller 8 corresponding to the second discharge hole is arranged outside the cooling box 44, a third feed hole is further formed in the cooling box 44, the third feed hole is located below the second discharge hole, a third guide-in roller 9 corresponding to the third feed hole is arranged in the cooling box 44, a third guide-out roller 10 is arranged above one side, far away from the third feed hole, a third discharge hole corresponding to the third guide-out roller 10 is formed in the cooling box, the decating box 33 is provided with a fourth feeding hole corresponding to the third discharging hole, a fourth leading-in roller 11 corresponding to the fourth feeding hole is arranged in the decating box 33, a third decating roller 12 is arranged below the fourth leading-in roller 11, a fourth discharging hole is arranged on the decating box 33 and is positioned below the fourth feeding hole, a fourth decating roller 13 is arranged on one side, close to the fourth discharging hole, of the third decating roller 12, a fourth leading-out roller 14 is arranged above one side, far away from the third decating roller 12, of the fourth leading-out roller 14 and corresponds to the fourth discharging hole, a fifth feeding hole corresponding to the fourth discharging hole is arranged on the cooling box 44, a fifth leading-in roller 15 corresponding to the fifth feeding hole is arranged in the cooling box 44, a fifth leading-out roller 16 is arranged below one side, far away from the fifth feeding hole, of the fifth leading-in roller 15 and corresponds to the fifth leading-out roller 16, and a fifth discharging hole corresponding to the fifth leading-out roller 16 is arranged on the cooling box 44, the outside of cooler bin 44 is equipped with the receipts material roller 17 that corresponds with the fifth discharge gate, receive material roller 17 and rotate through first rotating electrical machines drive, the structure of above-mentioned first decating roller, second decating roller, third decating roller and fourth decating roller is unanimous to for prior art, still be equipped with gas vent 43 on the decating case 33, gas vent 43 has condenser box 35 through blast pipe 34 intercommunication, be equipped with condensing equipment in the condenser box 35, condenser box 35 has aspiration pump 38 through going out tuber pipe 37 intercommunication, aspiration pump 38 is connected with air outlet 39, the bottom of condenser box 35 is equipped with the comdenstion water export, the comdenstion water export is connected with condensate pipe 40, the vertical setting of condensate pipe 40, the tip of condensate pipe 40 is equipped with outlet 42.

The woolen fabric is released by the feeding roller 1, enters the decating box 33 through a first feeding hole, bypasses from the lower part of the first leading-in roller 2 to the first decating roller 3, bypasses from the upper parts of the first decating roller 3 and the second decating roller 4 to the first leading-out roller 5, bypasses from the lower part of the first leading-out roller 5 to the first discharging hole to output the decating box 33, enters the cooling box 44 from a second feeding hole, bypasses from the lower part of the second leading-in roller 6 to the upper part of the second leading-out roller 7, outputs the cooling box 44 from a second discharging hole, bypasses the first guiding roller 8, changes the direction, enters the cooling box 44 again from a third feeding hole, bypasses from the lower part of the third leading-in roller 9 to the upper part of the third leading-out roller 10, outputs the cooling box 44 from a third discharging hole, enters the decating box 33 from a fourth feeding hole connected with the third discharging hole, bypasses from the upper part of the fourth leading-in roller 11, and passes through the fourth decating roller 13, then, the decating material passes through the upper part of the fourth delivery roller 14 and is delivered out of the fourth delivery port to the decating box 33, enters the cooling box 44 through a fifth feeding port connected with the fourth delivery port, winds from the upper part of the fifth introduction roller 15 to the lower part of the sixth delivery roller, is delivered out of the cooling box 44 through the fifth delivery port, and is wound up by the take-up roller 17.

The steam in the decating box 33 is discharged into the condensing box 35 through the air pump 38, when the steam passes through the condensing device, the steam is in contact with the cooling water pipe 3602 communicated with cooling water for cooling, the condensed water drops downwards and is discharged through the condensing water pipe 40, a filtering device 41 is arranged in the condensing water pipe 40 for filtering fluff mixed with the steam, and the condensed air is discharged from the air outlet 39 through the air outlet pipe 37 after passing through the air pump 38.

According to the preferable technical scheme, a first tension adjusting device 18 is arranged between the discharging roller 1 and the first feeding hole, and a second tension adjusting device 20 is arranged between the first guide roller 8 and the third feeding hole. In the conveying process of the wool fabric, the tension is too small, the two sides of the wool fabric move towards the middle part to form wrinkles, the quality of the decating is influenced, and the tension is controlled through the first tension adjusting device 18 and the second tension adjusting device 20 to enable the wool fabric to keep flat in the conveying process.

In a preferable technical scheme, the first tension adjusting device 18 and the second tension adjusting device 20 have the same structure, the first tension adjusting device 18 and the second tension adjusting device 20 are both located on a rack, the first tension adjusting device 18 comprises a first swing arm 21 vertically arranged, the upper end of the first swing arm 21 is hinged to the rack, a floating tension adjusting roller 22 is rotatably arranged at the lower end of the first swing arm 21, the first swing arm 21 is driven to swing by a first air cylinder 26, the tail end of the first air cylinder 26 is hinged to the rack, the front end of the first air cylinder 26 is hinged to the middle of the first swing arm 21, the first tension adjusting device 18 is further provided with a second guide roller 23 and a third guide roller 24, the second guide roller 23 is located below the floating tension adjusting roller 22 close to the discharging roller 1, the third guide roller 24 is located above the floating tension adjusting roller 22 close to the discharging roller 1, and a fourth guide roller 25 is arranged above the third guide roller 24, and the fourth guide roller 25 corresponds to the first feed opening.

The wool fabric passes through the fourth guide roller 25 in an S-shaped manner after sequentially passing around the second guide roller 23, the floating tension adjusting roller 22 and the third guide roller 24, and the first swing arm 21 is driven by the first air cylinder 26 to swing, so that the position of the floating tension adjusting roller 22 is adjusted to adjust the tension of the wool fabric.

In the preferable technical scheme, an auxiliary traction device 19 for driving the cloth is arranged between the first guide roller 8 and the second discharge hole. The material receiving roller 17 actively rotates through the first rotating motor to drive the wool fabric to be transmitted and moved, but the transmission path of the wool fabric is complex in bending, the friction force is increased, the first rotating motor is required to output large power, and the first rotating motor is assisted to drive the wool fabric to move by adding the auxiliary traction device 19.

In a preferable technical scheme, the auxiliary traction device 19 is installed on a rack, the auxiliary traction device 19 comprises an active traction roller 29, the active traction roller 29 is driven to rotate by a second rotating motor, a fifth guide roller 30 and a sixth guide roller 31 are respectively arranged on two sides of the active traction roller 29, the fifth guide roller 30 corresponds to a second discharge hole, the active traction roller 29 is positioned below the fifth guide roller 30 and the sixth guide roller 31, the auxiliary traction device 19 further comprises a second swing arm 27 which is horizontally arranged, one end of the second swing arm 27 is hinged with the rack, the other end of the second swing arm 27 is rotatably provided with a boosting compression roller 28, the boosting compression roller 28 is positioned below the active traction roller 29 and is pressed with the active traction roller 29, the second swing arm 27 is driven to swing by a second air cylinder 32, and the tail end of the second air cylinder 32 is hinged with the rack, the front end of the second air cylinder 32 is hinged with the middle part of the second swing arm 27.

The wool fabric is wound to the lower part of the driving traction roller 29 from the upper part of the fifth guide roller 30, passes through the upper part of the sixth guide roller 31 after being wound around the driving traction roller 29, the second swing arm 27 is driven to swing through the second air cylinder 32, the boosting press roller 28 is driven to press the wool fabric on the driving traction roller 29, and the driving traction roller 29 is driven to rotate through the second rotating motor to drive the wool fabric to be transmitted.

In a preferred embodiment, the condensing device includes a condensing plate 36, the condensing plate 36 includes a mounting frame 3601, the mounting frame 3601 is mounted on the side wall of the condensation box 35, the cooling water pipe 3602 is mounted on the inner side of the mounting frame 3601, the cooling water pipe 3602 comprises a plurality of horizontally arranged straight parts 36021, a plurality of the straight parts 36021 are arranged in parallel at intervals from top to bottom, the end parts of the upper straight part 36021 and the lower straight part are communicated through a bending part 36022, so that the cooling water pipe 3602 is continuously bent from top to bottom, the upper part of the condensation box 35 is provided with a cooling water inlet which is communicated with the upper end of a cooling water pipe 3602, a cooling water outlet is formed in the lower portion of the condensation tank 35, the cooling water outlet is communicated with the lower end of the condensation water pipe 40, cold water is introduced into the cooling water pipe 3602 through a cooling water inlet, and the cold water is discharged from the cooling water outlet after heat exchange with steam is performed.

The number of the condensing plates 36 is two or more, the flat portions 36021 on the adjacent condensing plates 36 are alternately arranged, the horizontal position of the flat portion 36021 on one condensing plate 36 is located between the two corresponding flat portions 36021 on the adjacent condensing plate 36, because the flat portions 36021 are arranged at intervals, part of steam can pass through the adjacent flat portions 36021 and cannot contact with the flat portions 36021, and after the flat portions 36021 on the adjacent condensing plates 36 are alternately arranged, the steam passing through the adjacent flat portions 36021 can contact with the rear flat portions 36021 to cool.

According to the preferable technical scheme, a filtering device 41 for filtering fluff is arranged in the condensate pipe 40, the fluff is mixed in the steam after decating, and the fluff is filtered through the filtering device 41.

Preferably, the filtering device 41 includes a filtering box 4101, an opening is disposed on one side of the condensed water pipe 40, the opening is matched with the filtering box 4101, the filtering box 4101 is inserted into the condensed water pipe 40 through the opening, the filtering box 4101 is arranged to penetrate in a vertical direction, and a filtering screen 4102 is disposed at a bottom end of the filtering box 4101.

The preferred technical scheme, the bottom of condensing box 35 is the throat shape setting from top to bottom, the comdenstion water export is located the least significant end of condensing box 35 bottom, and the comdenstion water in the condensing box 35 of being convenient for is discharged.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, refer to orientations or positional relationships that are based on the orientations or positional relationships shown in the drawings, or the orientations or positional relationships that the products of the present invention are conventionally placed in use, or the orientations or positional relationships that are conventionally understood by those skilled in the art, and are used for convenience in describing and simplifying the description, but do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. A continuous decating machine is characterized by comprising a decating box and a cooling box, wherein a cooling device is arranged in the cooling box, one side wall of the cooling box is connected with one side wall of the decating box, a first feeding hole is formed in the side wall, away from the cooling box, of the decating box, a discharging roller corresponding to the first feeding hole is arranged on the outer side of the decating box, a first leading-in roller is arranged in the decating box and corresponds to the first feeding hole, a first decating roller is arranged above the side, away from the first feeding hole, of the first leading-in roller, a second decating roller is arranged on the side, away from the first decating roller, of the first decating roller, a first leading-out roller is arranged below the side, away from the first decating roller, of the second decating roller, a first discharging hole corresponding to the first leading-out roller is formed in the side wall, connected with the decating box, a second feeding hole corresponding to the first discharging hole is formed in the cooling box, a second guide-in roller corresponding to the second feed inlet is arranged in the cooling box, a second guide-out roller is arranged above one side, away from the second feed inlet, of the second guide-in roller, a second discharge outlet corresponding to the second guide-out roller is arranged on the side wall, away from the decating box, of the cooling box, a first guide roller corresponding to the second discharge outlet is arranged outside the cooling box, a third feed inlet is further arranged on the cooling box, the third feed inlet is positioned below the second discharge outlet, a third guide-in roller corresponding to the third feed inlet is arranged in the cooling box, a third guide-out roller is arranged above one side, away from the third feed inlet, of the third guide-in roller, a third discharge outlet corresponding to the third guide-out roller is arranged on the cooling box, a fourth feed inlet corresponding to the third discharge outlet is arranged on the decating box, and a fourth guide-in roller corresponding to the fourth feed inlet is arranged in the decating box, a third decating roller is arranged below the fourth guide roller, a fourth discharge port is formed in the decating box and is positioned below a fourth feed port, a fourth decating roller is arranged on one side, close to the fourth discharge port, of the third decating roller, a fourth guide roller is arranged above one side, far away from the third decating roller, of the fourth decating roller, the fourth guide roller corresponds to the fourth discharge port, a fifth feed port corresponding to the fourth discharge port is formed in the cooling box, a fifth guide roller corresponding to the fifth feed port is arranged in the cooling box, a fifth guide roller is arranged below one side, far away from the fifth feed port, of the fifth guide roller, a fifth guide roller is arranged below the cooling box and is provided with a fifth discharge port corresponding to the fifth guide roller, a material collecting roller corresponding to the fifth discharge port is arranged on the outer side of the cooling box, the material collecting roller is driven to rotate by a first rotating motor, and an exhaust port is further formed in the decating box, the exhaust port is communicated with a condenser box through an exhaust pipe, a condensing device is arranged in the condenser box, the condenser box is communicated with an air pump through an air outlet pipe, the air pump is connected with an air outlet, a condensate outlet is arranged at the bottom of the condenser box, the condensate outlet is connected with a condensate pipe, the condensate pipe is vertically arranged, and a water outlet is formed in the end portion of the condensate pipe.

2. The continuous decating machine as claimed in claim 1, wherein a first tension adjusting device is provided between the feed roller and the first feed opening, and a second tension adjusting device is provided between the first guide roller and the third feed opening.

3. The continuous decating machine according to claim 2, wherein the first tension adjusting device and the second tension adjusting device are identical in structure, the first tension adjusting device and the second tension adjusting device are both located on the frame, the first tension adjusting device comprises a first swing arm vertically arranged, the upper end of the first swing arm is hinged with the frame, the lower end of the first swing arm is rotatably provided with a floating tension adjusting roller, the first swing arm is driven to swing through a first air cylinder, the tail end of the first air cylinder is hinged with the frame, the front end of the first air cylinder is hinged with the middle part of the first swing arm, the first tension adjusting device is further provided with a second guide roller and a third guide roller, the second guide roller is located below one side of the floating tension adjusting roller close to the discharging roller, and the third guide roller is located above one side of the floating tension adjusting roller close to the discharging roller, and a fourth guide roller is arranged above the third guide roller and corresponds to the first feed opening.

4. The continuous decating machine according to claim 1, wherein an auxiliary traction device for driving the cloth is arranged between the first guide roller and the second discharge port, the auxiliary traction device is mounted on the frame, the auxiliary traction device comprises a driving traction roller, the driving traction roller is driven to rotate by a second rotating motor, a fifth guide roller and a sixth guide roller are respectively arranged on two sides of the driving traction roller, the fifth guide roller corresponds to the second discharge port, the driving traction roller is positioned below the fifth guide roller and the sixth guide roller, the auxiliary traction device further comprises a second swing arm horizontally arranged, one end of the second swing arm is hinged with the frame, the other end of the second swing arm is rotatably provided with a boosting press roller, the boosting press roller is positioned below the driving traction roller and is pressed against the driving traction roller, and the second swing arm is driven to swing by a second air cylinder, the tail end of the second cylinder is hinged with the rack, and the front end of the second cylinder is hinged with the middle part of the second swing arm.

5. The continuous decating machine according to claim 1, wherein the condensing device comprises a condensing plate, the condensing plate comprises an installation frame, the installation frame is installed on the side wall of the condensing box, a cooling water pipe is installed on the inner side of the installation frame, the cooling water pipe comprises a plurality of horizontally arranged straight portions, the straight portions are arranged in parallel and at intervals from top to bottom, the end portions of the upper straight portion and the lower straight portion are communicated through bending portions, the cooling water pipe is continuously bent from top to bottom, a cooling water inlet is formed in the upper portion of the condensing box and communicated with the upper end of the cooling water pipe, a cooling water outlet is formed in the lower portion of the condensing box, and the cooling water outlet is communicated with the lower end of the condensing water pipe.

6. The continuous decating machine according to claim 5, wherein the number of the condensing plates is two or more, the straight portions of the adjacent condensing plates are staggered, and the horizontal position of the straight portion of one condensing plate is located between the corresponding two straight portions of the adjacent condensing plate.

7. The continuous decating machine as claimed in claim 1, wherein a filtering device for filtering fluff is provided in the condensed water pipe.

8. The continuous decating machine as claimed in claim 7, wherein the filtering device comprises a filtering box, an opening is arranged on one side of the condensed water pipe, the opening is matched with the filtering box, the filtering box is inserted into the condensed water pipe through the opening, the filtering box is arranged in a penetrating way in the vertical direction, and a filtering net is arranged at the bottom end of the filtering box.

9. The continuous decating machine as claimed in claim 1, wherein the bottom of the condensing box is in a throat shape from top to bottom, and the condensed water outlet is located at the lowest end of the bottom of the condensing box.