CN111733557A - Intelligent dip-dyeing device for cloth processing - Google Patents

Abstract

The invention relates to the technical field of cloth processing, and discloses an intelligent dip-dyeing device for cloth processing, which comprises a rack, wherein a dip-dyeing box is arranged in the middle of the rack and positioned below first guide rollers, a dewatering box is arranged on one side of the dip-dyeing box, a partition plate is arranged between the dip-dyeing box and the dewatering box, two first stretching rollers are arranged in parallel at the inner bottom ends of the dip-dyeing box and the dewatering box and above the partition plate, a driving box is arranged right above the space between the two first stretching rollers, a vibration bin is arranged between the two first stretching rollers at the lower end of the driving box, and an upper drying plate and a lower drying plate are correspondingly arranged on one side of the front side of the rack and positioned below the drying rollers. The invention integrates dip dyeing, dehydration, water control and drying, realizes intelligent dip dyeing and subsequent treatment, adopts alternate knocking vibration of a plurality of vibration bins, ensures that cloth and dye are fully soaked, and has better dehydration effect, integrated design, higher intelligence and simpler operation.

Description

Intelligent dip-dyeing device for cloth processing

Technical Field

The invention relates to the technical field of cloth processing, in particular to an intelligent dip-dyeing device for cloth processing.

Background

The cloth is a commonly used material in the ornamental material, including chemical fiber carpet, non-woven wallhanging, linen, nylon cloth, colored rubberized fabric, flannel, etc. various cloth, the cloth has played a considerable role in the display of decoration, often is the main strength that is not neglected in the whole sale space, and the cloth is in the course of processing, the cloth is a very important step, the cloth is dip-dyed to soak the dyeings in the dyebath containing dyestuffs and necessary auxiliary agent, thus make the dyestuffs dye a kind of processing technology of dyeing the dyeings gradually; when the dip dyeing is performed, a cloth dip dyeing device is required.

However, in the dip dyeing process of the existing cloth, the cloth and the dye solution are not sufficiently soaked, so that the dip dyeing efficiency is poor, and the cloth after dip dyeing needs to be moved to other equipment for dehydration treatment (namely, the residual dip dyeing solution on the cloth is extruded), the process is complicated, and the loss of the dye solution is easily caused, so that the technical personnel in the field provide an intelligent dip dyeing device for cloth processing to solve the problems brought forward in the background technology.

Disclosure of Invention

The invention aims to provide an intelligent dip-dyeing device for cloth processing, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent dip-dyeing device for cloth processing comprises a rack, wherein an unwinding roller is connected to the upper end of the rear side of the rack, a first guide roller is arranged in front of the unwinding roller at the rear side of the rack, a dip-dyeing box is arranged below the first guide roller at the middle of the rack, a dewatering box is arranged on one side of the dip-dyeing box, a partition plate is arranged between the dip-dyeing box and the dewatering box, two first stretching rollers are arranged in parallel at the bottom ends inside the dip-dyeing box and the dewatering box and above the partition plate, a drive box is arranged right above the space between the two first stretching rollers, a motor bin is connected to the outer wall of the rack at one side of the drive box, a vibration bin is arranged between the two first stretching rollers at the lower end of the drive box, a drying roller is arranged at the position close to the upper side of the dewatering box at the front side of the rack, an upper drying plate and a lower drying plate are correspondingly arranged at one side of the lower side of the drying roller at the front side of the rack, the front side of frame is located and is provided with two second extension rollers side by side between last drying plate and the lower drying plate, the front side top of second extension roller is provided with the second guide roll, the front side below of second guide roll is provided with the wind-up roll, inside one side of dip-dye box is located and is provided with first compression roller and second compression roller side by side directly over the first extension roller.

As a further scheme of the invention: the inside in motor storehouse is provided with main bull stick and vice bull stick side by side, the inside one end punishment that is located main bull stick and vice bull stick in motor storehouse is connected with main belt roller and vice belt roller respectively, be connected through the belt between main belt roller and the vice belt roller, the inside in motor storehouse is located and is provided with driving motor under the main bull stick, driving motor's output is connected with main bull stick through the belt.

As a still further scheme of the invention: the equal distance in the inside of drive box corresponding main bull stick and the one end department of vice bull stick is provided with a plurality of "worker" style of calligraphy eccentric roller, every the eccentric roller comprises two eccentric wheels, and two be provided with the connecting rod between the eccentric wheel, the surface of connecting rod is connected with the connecting cylinder, the internal connection that the bottom of connecting cylinder is located the vibration storehouse has the vibration post.

As a still further scheme of the invention: the vibrating bin and the driving box are in an integrated communicated type, a rotating rod is arranged in the middle of each two side faces of each eccentric roller, every two adjacent eccentric rollers are connected through the rotating rod, every two eccentric rollers are connected through a connecting rod, and the positions of the connecting rods on every two adjacent eccentric rollers on the eccentric rollers are opposite.

As a still further scheme of the invention: the vibration post is connected with the connecting rod through the connecting cylinder rotation, the rotary rod is connected with the drive box and the motor storehouse is all rotated, the length of vibration post and the high looks adaptation in vibration storehouse.

As a still further scheme of the invention: the lower surface of going up the drying plate and the upper surface of drying plate down all are provided with the connecting plate, the inside equidistance of connecting plate is provided with a plurality of heating pipe, and the surface of connecting plate is connected with the otter board, go up the drying plate and all be linked together with the connecting plate with lower drying plate, the fan is installed to the front end lateral surface of frame, the output of fan is connected with the tuber pipe, and the side that the top of fan is located the frame is provided with control panel, the output of fan passes through the tuber pipe and is linked together with last drying plate and lower drying plate respectively.

As a still further scheme of the invention: the one end of first compression roller and second compression roller is connected with first mount pad, and the other end of first compression roller and second compression roller is connected with the second mount pad, the both ends department that the medial surface of first mount pad and second mount pad corresponds the second compression roller all sets up flutedly, the inside of recess is run through first mount pad department and is provided with adjusting screw, adjusting screw's surface is located the one end department of second compression roller and has cup jointed the connecting sleeve, the inside that the inboard of second mount pad is located the recess is provided with the slide bar, the surface of slide bar corresponds the other end department of second compression roller and is provided with the slide cartridge.

As a still further scheme of the invention: the outer surface of the adjusting screw and the inner surface of the connecting sleeve are provided with threads, one end of the second pressing roller is connected with the adjusting screw through the connecting sleeve and the first mounting seat, one end of the adjusting screw is rotatably connected with the groove, the sliding cylinder is connected with the sliding rod in a sliding mode, and the other end of the second pressing roller is connected with the second mounting seat through the sliding cylinder and the sliding rod.

Compared with the prior art, the invention has the beneficial effects that: the intelligent dip-dyeing device for processing the cloth is designed, during actual operation, intelligent dip-dyeing and subsequent treatment are realized by integrating dip-dyeing, dehydration, water control and drying, a flowing water type integrated device is adopted, the operation is simple and convenient, the efficiency is high, the design of a plurality of vibration bins is utilized, the cloth can be conveniently and alternately knocked and vibrated during dip-dyeing, so that the cloth and dye are fully soaked, during dehydration, water on the cloth can be controlled to be dried through knocking and vibration, in addition, the purpose of rapid dehydration of dye liquid on the cloth is realized through the matching of adjustable compression rollers, and meanwhile, the upper drying plate and the lower drying plate are matched with the application of a heating pipe, so that air blowing and drying treatment can be rapidly realized on two sides of the dehydrated cloth.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent dip-dyeing device for cloth processing;

FIG. 2 is a schematic diagram of the distribution of drying plates in an intelligent exhaust dyeing device for cloth processing;

FIG. 3 is a schematic structural diagram of a driving box and a vibrating bin in an intelligent dip-dyeing device for cloth processing;

FIG. 4 is a schematic diagram of an upper and lower drying plates in an intelligent exhaust dyeing apparatus for fabric processing;

FIG. 5 is a cross-sectional view of an intelligent exhaust apparatus for fabric processing;

fig. 6 is a schematic structural diagram of a first press roller and a second press roller in an intelligent dip dyeing device for cloth processing.

In the figure: 1. a frame; 2. unwinding rollers; 3. a drive cartridge; 4. a dip-dyeing box; 5. a partition plate; 6. a first stretching roller; 7. a dewatering box; 8. an upper drying plate; 9. a drying roller; 10. a first guide roller; 11. a second guide roller; 12. a wind-up roll; 13. a fan; 14. an air duct; 15. a control panel; 16. a second stretching roller; 17. a lower drying plate; 18. a first press roll; 19. a second press roll; 20. a first mounting seat; 21. a groove; 22. a connecting sleeve; 23. adjusting the screw rod; 24. a second mounting seat; 25. a slide cylinder; 26. a slide bar; 31. a vibration bin; 32. a motor compartment; 33. an auxiliary rotating rod; 34. a main rotating rod; 35. a drive motor; 36. a main belt roller; 37. a secondary belt roller; 38. an eccentric wheel; 39. a connecting rod; 310. a connecting cylinder; 311. a vibrating column; 81. a connecting plate; 82. heating a tube; 83. a mesh plate.

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. 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.

Referring to fig. 1 to 6, in the embodiment of the present invention, an intelligent dip-dyeing apparatus for processing cloth includes a frame 1, a unreeling roller 2 is connected to a rear upper end of the frame 1, a first guide roller 10 is disposed at a rear side of the frame 1 in front of the unreeling roller 2, a dip-dyeing tank 4 is disposed at a middle portion of the frame 1 below the first guide roller 10, a dewatering tank 7 is disposed at one side of the dip-dyeing tank 4, a partition plate 5 is disposed between the dip-dyeing tank 4 and the dewatering tank 7, an upper end of the partition plate 5 is designed in an inclined manner, so that dye liquid dripping from the cloth can flow back into the dip-dyeing tank 4 when the dye liquid on the cloth is knocked and vibrated, two first stretching rollers 6 are disposed at inner bottom ends of the dip-dyeing tank 4 and the dewatering tank 7 and above the partition plate 5 in parallel, a driving box 3 is disposed directly above the two first stretching rollers 6, a motor compartment 32 is connected to an outer wall of the driving box 3, and the lower extreme of drive box 3 is located and is provided with vibration storehouse 31 between two first stretching rollers 6, the front side of frame 1 is located the top position that is close to dewatering box 7 and is provided with drying roller 9, and the front side of frame 1 is located the below one side of drying roller 9 and is provided with upper drying plate 8 and lower drying plate 17 correspondingly, the front side of frame 1 is located and is provided with two second stretching rollers 16 between upper drying plate 8 and lower drying plate 17 side by side, the front side top of second stretching roller 16 is provided with second guide roll 11, the front side below of second guide roll 11 is provided with wind-up roll 12, the inside one side of dip-dyeing case 4 is located and is provided with first compression roller 18 and second compression roller 19 side by side directly over first stretching roller 6.

A main rotating rod 34 and an auxiliary rotating rod 33 are arranged in parallel in the motor chamber 32, a main belt roller 36 and an auxiliary belt roller 37 are respectively connected with the inner part of the motor chamber 32 at one end of the main rotating rod 34 and one end of the auxiliary rotating rod 33, the main belt roller 36 and the auxiliary belt roller 37 are connected through a belt, a driving motor 35 (the model adopts a servo motor of LAFERT series) is arranged in the motor chamber 32 under the main rotating rod 34, the output end of the driving motor 35 is connected with the main rotating rod 34 through a belt, a plurality of eccentric rollers in the shape of H are arranged in the driving box 3 at equal distances corresponding to one end of the main rotating rod 34 and one end of the auxiliary rotating rod 33, each eccentric roller is composed of two eccentric wheels 38, a connecting rod 39 is arranged between the two eccentric wheels 38, the outer surface of the connecting rod 39 is connected with a connecting cylinder 310, the bottom end of the connecting cylinder 310 is arranged in the vibrating bin 31 and is connected with a vibrating column 311, the vibrating bin 31 and the driving box 3 are, and are connected in a sealing way, the middle parts of two side surfaces of each eccentric roller are respectively provided with a rotating rod, every two adjacent eccentric rollers are connected through the rotating rods, every two eccentric rollers 38 are connected through a connecting rod 39, the positions of the connecting rods 39 on every two adjacent eccentric rollers on the eccentric rollers 38 are opposite, a vibration column 311 is rotatably connected with the connecting rods 39 through a connecting cylinder 310, the rotating rods are rotatably connected with a driving box 3 and a motor bin 32, the length of the vibration column 311 is matched with the height of the vibration bin 31, when the vibration box works, the driving motor 35 drives the main rotating rod 34 to rotate, then the main rotating rod 34 drives the auxiliary rotating rod 33 to synchronously rotate through the main belt roller 36 and the auxiliary belt roller 37 which are matched with a belt, so that two rows of I-shaped eccentric rollers in the driving box 3 can rotate, and the positions of the connecting rods 39 on every two adjacent eccentric rollers on the eccentric rollers 38 are opposite, that is, when the connecting rod 39 on the first eccentric roller is directly above the eccentric wheel 38, the connecting rod 39 on the other adjacent eccentric roller is just right below the eccentric wheel 38, so that the up-and-down alternate operation of the vibrating column 311 can be realized, and thus the vibrating column 311 on each adjacent eccentric roller can strike the bottom end inside the vibrating bin 31 up and down alternately, and the bottom of the vibrating bin 31 can be vibrated.

The lower surface of the upper drying plate 8 and the upper surface of the lower drying plate 17 are both provided with connecting plates 81, a plurality of heating pipes 82 are equidistantly arranged inside the connecting plates 81, the surface of the connecting plates 81 is connected with a screen 83, the upper drying plate 8 and the lower drying plate 17 are both communicated with the connecting plates 81, the front end side of the rack 1 is provided with a fan 13, the output end of the fan 13 is connected with an air pipe 14, the side surface of the rack 1 above the fan 13 is provided with a control panel 15, the output end of the fan 13 is respectively communicated with the upper drying plate 8 and the lower drying plate 17 through the air pipe 14, after the cloth is dyed and dehydrated, the two surfaces of the cloth are simultaneously dried by blowing through the upper drying plate 8 and the lower drying plate 17, the heating pipes 82 in the connecting plates 81 are heated side by side to heat the air inside the connecting plates 81, and the cooperation of the fan 13 and the air pipe 14 is matched to blow, thereby being convenient for drying the cloth after dip dyeing.

One end of the first compression roller 18 and one end of the second compression roller 19 are connected with a first mounting seat 20, the other end of the first compression roller 18 and the other end of the second compression roller 19 are connected with a second mounting seat 24, two ends of the inner side surfaces of the first mounting seat 20 and the second mounting seat 24, corresponding to the second compression roller 19, are respectively provided with a groove 21, an adjusting screw 23 is arranged inside the groove 21 and penetrates through the first mounting seat 20, a connecting sleeve 22 is sleeved at one end of the surface of the adjusting screw 23, a sliding rod 26 is arranged inside the groove 21 and located on the inner side of the second mounting seat 24, a sliding cylinder 25 is arranged at the other end of the surface of the sliding rod 26, corresponding to the second compression roller 19, the outer surface of the adjusting screw 23 and the inner surface of the connecting sleeve 22 are respectively provided with threads, one end of the second compression roller 19 is connected with the adjusting screw 23 through the connecting sleeve 22 and the first mounting seat 20, one end of, the sliding cylinder 25 is connected with the sliding rod 26 in a sliding manner, the other end of the second press roller 19 is connected with the second mounting seat 24 through the sliding cylinder 25 and the sliding rod 26, after the cloth is impregnated through the impregnation box 4 and before entering the dewatering box 7, the cloth passes through the first press roller 18 and the second press roller 19, the impregnated cloth is extruded and dewatered through the first press roller 18 and the second press roller 19, so that dye liquid adsorbed on the cloth is separated through extrusion, the distance between the first press roller 18 and the second press roller 19 can be adjusted, the adjusting screw 23 is screwed forward to rotate in the groove 21 and keep the position unchanged, the connecting sleeve 22 can move linearly on the surface of the connecting sleeve, the second press roller 19 is driven to approach the first press roller 18, meanwhile, the other end of the second press roller 19 slides on the sliding rod 26 through the sliding cylinder 25, the adjusting screw 23 is screwed backward to make the second press roller 19 far away from the first press roller 18, the operation is simple and convenient.

The working principle of the invention is as follows: before the cloth dyeing machine works, the cloth to be dyed is placed on an unwinding roller 2, one end of the cloth is wound around a first guide roller 10 and guided by the first guide roller, so that the cloth is wound around two first stretching rollers 6 arranged at the bottom of a dip dyeing box 4 in parallel, then passes through a space between a first press roller 18 and a second press roller 19, is wound on the two first stretching rollers 6 above a partition plate 5, further is wound on the two first stretching rollers 6 at the bottom of a dewatering box 7, then is wound upwards on a drying roller 9, is wound on the surfaces of two second stretching rollers 16 through the guide of the drying roller 9, is wound on a winding roller 12 through the guide of a second guide roller 11, and is required to be described that the bottom surface of a vibration bin 31 at the lower end of a driving box 3 is in contact with the cloth when the cloth is wound on the surface of the first stretching rollers 6, and the space between the first press roller 18 and the second press roller 19 is adjusted through the thickness of the cloth, so as to dehydrate the cloth after the dip dyeing, simultaneously pour the dye into the dip dyeing box 4, when in work, the driving motor 35 is started to work, thereby the eccentric rollers on the main rotating rod 34 and the auxiliary rotating rod 33 rotate, further the vibrating column 311 can be knocked up and down alternately in the vibrating bin 31, further, the cloth is vibrated by the vibrating bin 31, so that the cloth and the dye can be fully dip dyed, and after the dip dyeing is finished, the cloth is squeezed and dehydrated by the first compression roller 18 and the second compression roller 19, the adsorbed dye liquid can be extruded out, then the cloth is stretched by the two first stretching rollers 6 at the upper end of the clapboard 5, the dehydrated cloth is secondarily vibrated and knocked by the vibrating bin 31 at the lower end of the driving box 3 corresponding to the cloth, and when the cloth passes through the dehydrating box 7, the first stretching rollers 6 and the vibrating bin 31 at the inner bottom end of the cloth can be utilized to realize tertiary vibration and knocking, thereby the dye liquid existing in the cloth can be knocked to control the dye liquid on the cloth better, (it should be noted that, when the cloth passes through the inside of the dip-dyeing box 4, the upper end of the partition board 5 and the first stretching roller 6 in the dewatering box 7, the cloth can be horizontally stretched by the parallel first stretching rollers 6), the cloth after the secondary dewatering passes through the drying roller 9, then is stretched by the second stretching roller 16, and is dried by the secondary air blowing of the upper drying board 8 and the lower drying board 17, so as to realize the rapid drying treatment of the cloth.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an intelligent dip-dyeing device for cloth processing, includes frame (1), its characterized in that, the rear side upper end of frame (1) is connected with unreel roller (2), and the rear side of frame (1) is located the place ahead of unreeling roller (2) and is provided with first guide roll (10), the middle part of frame (1) is located the below of first guide roll (10) and is provided with dip-dyeing case (4), one side of dip-dyeing case (4) is provided with dehydration case (7), and is provided with baffle (5) between dip-dyeing case (4) and dehydration case (7), the inside bottom of dip-dyeing case (4) and dehydration case (7) and the top of baffle (5) all are provided with two first stretching rollers (6) in parallel, two be provided with drive box (3) directly over between first stretching roller (6), the outer wall that one side of drive box (3) is located frame (1) is connected with motor storehouse (32), and the lower end of the driving box (3) is positioned between the two first stretching rollers (6) and is provided with a vibration bin (31), a drying roller (9) is arranged at the front side of the frame (1) and close to the upper part of the dewatering box (7), an upper drying plate (8) and a lower drying plate (17) are correspondingly arranged at one side of the front side of the frame (1) below the drying roller (9), two second stretching rollers (16) are arranged between the upper drying plate (8) and the lower drying plate (17) at the front side of the frame (1) in parallel, a second guide roller (11) is arranged above the front side of the second stretching roller (16), a winding roller (12) is arranged below the front side of the second guide roller (11), and a first press roller (18) and a second press roller (19) are arranged in parallel on one side of the interior of the dip-dyeing box (4) and are positioned right above the first stretching roller (6).

2. The intelligent dip-dyeing device for fabric processing according to claim 1, characterized in that a main rotating rod (34) and an auxiliary rotating rod (33) are arranged in parallel inside the motor chamber (32), one end of the motor chamber (32) located at the main rotating rod (34) and the auxiliary rotating rod (33) is respectively connected with a main belt roller (36) and an auxiliary belt roller (37), the main belt roller (36) and the auxiliary belt roller (37) are connected through a belt, a driving motor (35) is arranged under the main rotating rod (34) inside the motor chamber (32), and an output end of the driving motor (35) is connected with the main rotating rod (34) through the belt.

3. The intelligent dip-dyeing device for cloth processing according to claim 2, characterized in that a plurality of I-shaped eccentric rollers are arranged in the driving box (3) at equal distances corresponding to one ends of the main rotating rod (34) and the auxiliary rotating rod (33), each eccentric roller is composed of two eccentric wheels (38), a connecting rod (39) is arranged between the two eccentric wheels (38), the outer surface of the connecting rod (39) is connected with a connecting cylinder (310), and the bottom end of the connecting cylinder (310) is located inside the vibrating bin (31) and is connected with a vibrating column (311).

4. The intelligent dip-dyeing device for cloth processing according to claim 3, characterized in that the vibration bin (31) is integrally communicated with the driving box (3), the middle parts of two side surfaces of each eccentric roller are provided with rotating rods, every two adjacent eccentric rollers are connected through the rotating rods, every two eccentric rollers (38) are connected through connecting rods (39), and the positions of the connecting rods (39) on every two adjacent eccentric rollers on the eccentric rollers (38) are opposite.

5. The intelligent dip-dyeing device for cloth processing according to claim 4, characterized in that the vibrating column (311) is rotatably connected with the connecting rod (39) through a connecting cylinder (310), the rotating rod is rotatably connected with the driving box (3) and the motor chamber (32), and the length of the vibrating column (311) is adapted to the height of the vibrating chamber (31).

6. The intelligent dip-dyeing device for cloth processing according to claim 1, the lower surface of the upper drying plate (8) and the upper surface of the lower drying plate (17) are both provided with connecting plates (81), a plurality of heating pipes (82) are equidistantly arranged in the connecting plate (81), the surface of the connecting plate (81) is connected with a screen plate (83), the upper drying plate (8) and the lower drying plate (17) are communicated with the connecting plate (81), a fan (13) is arranged on the side surface of the front end of the frame (1), the output end of the fan (13) is connected with an air pipe (14), and a control panel (15) is arranged above the fan (13) and positioned on the side surface of the frame (1), the output end of the fan (13) is respectively communicated with the upper drying plate (8) and the lower drying plate (17) through an air pipe (14).

7. The intelligent dip-dyeing device for cloth processing according to claim 1, one end of the first compression roller (18) and one end of the second compression roller (19) are connected with a first mounting seat (20), and the other ends of the first compression roller (18) and the second compression roller (19) are connected with a second mounting seat (24), grooves (21) are respectively arranged at the two ends of the inner side surfaces of the first mounting seat (20) and the second mounting seat (24) corresponding to the second press roller (19), an adjusting screw rod (23) is arranged in the groove (21) at the position penetrating through the first mounting seat (20), a connecting sleeve (22) is sleeved at one end of the surface of the adjusting screw (23) positioned on the second press roll (19), a sliding rod (26) is arranged inside the groove (21) at the inner side of the second mounting seat (24), and a slide cylinder (25) is arranged at the other end of the surface of the slide bar (26) corresponding to the second press roller (19).

8. The intelligent dip-dyeing device for fabric processing according to claim 7, wherein the outer surface of the adjusting screw (23) and the inner surface of the connecting sleeve (22) are both provided with threads, one end of the second press roller (19) is connected with the adjusting screw (23) through the connecting sleeve (22) and the first mounting seat (20), one end of the adjusting screw (23) is rotatably connected with the groove (21), the sliding cylinder (25) is slidably connected with the sliding rod (26), and the other end of the second press roller (19) is connected with the second mounting seat (24) through the sliding cylinder (25) and the sliding rod (26).

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