CN212560732U - Synchronous printing and dyeing air drying equipment for cloth - Google Patents

Abstract

The utility model relates to the technical field of cloth processing equipment, in particular to a synchronous dyeing and air-drying device for cloth, which comprises a first unwinding roller mechanism, a second unwinding roller mechanism, a dye box, a first air duct component, a second air duct component, an air duct rotating mechanism, a stirring mechanism, an unwinding driving mechanism and a driven roller set, wherein the dye box is divided into a first dyeing grid and a second dyeing grid, the first unwinding roller mechanism and the second unwinding roller mechanism are respectively arranged at the feed end of the first dyeing grid and the discharge end of the second dyeing grid, the first air duct component is arranged between a first driven rod and a third driven rod, the second air duct component is arranged between the second driven rod and the third driven rod, the output end of the air duct rotating mechanism is in transmission connection with the stress ends of the first air duct component and the second air duct component, the stirring mechanism is arranged on the dye box, the technical scheme can carry out continuous coloring and targeted air-drying work on the cloth in different stages, the production efficiency is greatly improved.

Description

Synchronous printing and dyeing air drying equipment for cloth

Technical Field

The utility model relates to a cloth processing equipment technical field specifically is a synchronous printing and dyeing of cloth air-dries equipment is related to.

Background

The cloth is a material commonly used in decorative materials. Comprises various fabrics such as chemical fiber carpets, non-woven wallcoverings, linen, nylon fabrics, colored rubberized fabrics, flannel and the like. Cloth plays a considerable role in decorative displays, often a major non-negligible effort in the overall sales space. A large amount of cloth is used for wall surface decoration, partition and background treatment, and a good commercial space display style can be formed.

The weaving mode can be divided into: woven fabric and knitted fabric. The processing technology can be divided into: grey cloth, bleached cloth, dyed cloth, printed cloth, colored woven cloth, mixed process cloth (such as printing on the colored woven cloth, composite cloth, flocked cloth, leather-like felt cloth) and the like. It can also be divided into the following raw materials: cotton cloth, chemical fabric, hemp cloth, wool fabric, silk, blended fabric, and the like.

But present equipment is single coloring then air-dry to the cloth usually, so we have proposed the synchronous printing and dyeing of cloth and air-dry equipment, can carry out the air-dry work of direct-directed type to the cloth in different stages when coloring in succession to the cloth, promoted production efficiency greatly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a synchronous printing and dyeing of cloth air-dries equipment is provided, this technical scheme can carry out the air-dry work of direct-type to the cloth in different stages when coloring in succession to the cloth, has promoted production efficiency greatly.

In order to solve the technical problem, the utility model provides a following technical scheme:

the cloth synchronous printing, dyeing and air-drying equipment comprises a first unwinding roller mechanism, a second unwinding roller mechanism, a dyeing box, a first air duct assembly, a second air duct assembly, an air duct rotating mechanism, a stirring mechanism, an unwinding driving mechanism and a driven roller set;

the dyeing box is divided into a first dyeing grid and a second dyeing grid, the first unwinding roller mechanism and the second unwinding roller mechanism are respectively arranged at the feeding end of the first dyeing grid and the discharging end of the second dyeing grid, the output end of the unwinding driving mechanism is in transmission connection with the stressed ends of the first unwinding roller mechanism and the second unwinding roller mechanism, three driven roller sets are respectively a first driven rod, a second driven rod and a third driven rod, the first driven rod and the second driven rod are respectively arranged in the first dyeing grid and the second dyeing grid, the third driven rod is arranged between the first dyeing grid and the second dyeing grid and is higher than the first driven rod and the second driven rod, the first air duct assembly is arranged between the first driven rod and the third driven rod, the second air duct assembly is arranged between the second driven rod and the third driven rod, the output end of the air duct rotating mechanism is in transmission connection with the stressed ends of the first air duct assembly and the second air duct assembly, the stirring mechanism is arranged on the dyeing box, and the working ends of the stirring mechanism are respectively positioned in the first dyeing grid and the second dyeing grid.

Preferably, the structure of first unwinding roller mechanism is unanimous with second unwinding roller mechanism, first unwinding roller mechanism is including first gyro wheel, the mount, second gyro wheel and connecting plate, the both ends of first gyro wheel are passed through the mount and are installed in the first feed end that dyes the check, the second gyro wheel is located first gyro wheel directly over, the both ends of second gyro wheel all with connecting plate rotatable coupling, be equipped with the guide bar on the mount, and the guide bar runs through the connecting plate, the tip of guide bar is equipped with the separation blade, the spring housing is located on the guide bar, and the spring is located between separation blade and the connecting plate.

Preferably, the unwinding driving mechanism comprises a first gear, a second gear, a chain, a first servo motor and a first right-angle reducer, the first servo motor is mounted on the dyeing box, the first right-angle reducer is mounted at the output end of the first servo motor, the first gear is mounted at the output end of the right-angle reducer, the second gear is mounted at the stressed end of a first roller of the first unwinding roller mechanism and the stressed end of a first roller of the second unwinding roller mechanism respectively, and the first gear is connected with the two second gears through the chain in a right-angle manner.

Preferably, the first air duct assembly and the second air duct assembly are consistent in structure, the first air duct assembly comprises an air duct cylinder, a support, a rotary sleeve and an air supply pipe, the air duct cylinder is mounted on the fuel tank through the support, an air outlet is formed in the air duct cylinder in a surrounding mode, one end of the air duct cylinder is open, the rotary sleeve is located at the opening of the air duct cylinder, the inner edge of the rotary sleeve is rotatably connected with the air duct cylinder, the outer edge of the rotary sleeve is fixedly connected with the support, an air inlet is formed in the rotary sleeve, and the air supply pipe is connected with the rotary sleeve.

Preferably, the air duct rotating mechanism comprises a first belt pulley, a second belt pulley and a second servo motor, the second servo motor is installed on the dyeing box, the first belt pulley is installed at the output end of the second servo motor, the second belt pulley is installed at the closed end of the first air duct assembly and the closed end of the second air duct assembly, and the first belt pulley and the second belt pulley are connected in a belt transmission mode.

Preferably, the rabbling mechanism is including first stirring rod, the second stirring rod, first synchronizing wheel, the second synchronizing wheel, third servo motor and second right angle reduction gear, first stirring rod and second stirring rod are installed respectively and are dyed check and second in the check, third servo motor installation and dye the case on, second right angle reduction gear installs in third servo motor's output, first synchronizing wheel is installed in second right angle reduction gear's output, the second synchronizing wheel is installed respectively with the atress end of first stirring rod and second stirring rod, connect through synchronous belt drive between first synchronizing wheel and two second synchronizing wheels.

Compared with the prior art, the utility model beneficial effect who has is: the working personnel enable the cloth to pass through the working end of the first unwinding roller mechanism, then pass through the bottom of the first driven rod, pass through the top of the third driven rod, then pass through the bottom of the second driven rod, and finally pass through the working end of the second unwinding roller mechanism, the unwinding driving mechanism starts to work, the output end of the unwinding driving mechanism drives the working ends of the first unwinding roller mechanism and the second unwinding roller mechanism to simultaneously start to rotate in the same direction, the first driven rod is located in the dye of the first dyeing lattice, so that the cloth located at the first driven rod enters the dye in the first dyeing lattice for dyeing, the first working end of the stirring mechanism enables the dye in the first dyeing lattice to be continuously beaten on the cloth, the dyeing of the cloth is more sufficient, the dyed cloth starts to rise to the working end of the third driven rod through the working end of the first air duct assembly, the air duct rotating mechanism drives the first air duct assembly to start to rotate, the rotating direction of the first air duct assembly is opposite to the moving direction of the cloth, the first air duct assembly blows and rotates at the same time so that the cloth can be dried faster, then the cloth descends to the second driven rod again to enter the second dyeing grid for second dyeing, the color of the cloth is firmer, the second working end of the stirring mechanism continuously beats the dye in the second dyeing grid onto the cloth so that the dyeing of the cloth is more sufficient, the cloth after secondary dyeing passes through the second air duct assembly before reaching the second unwinding roller mechanism, the working state of the second air duct assembly is consistent with that of the first air duct assembly, and finally the cloth after double dyeing is sent out by the second unwinding roller mechanism;

through the setting of this equipment, can carry out air-dry work to the formula to the cloth of different stages when coloring in succession to the cloth, promote production efficiency greatly.

Drawings

Fig. 1 is a schematic view showing a three-dimensional structure of a synchronous cloth printing, dyeing and air-drying device of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of a synchronous cloth printing, dyeing and air-drying device of the present invention;

FIG. 3 is a cloth work walking diagram of the cloth synchronous printing, dyeing and air-drying device of the utility model;

FIG. 4 is a front view of a cloth synchronous printing, dyeing and air-drying apparatus of the present invention;

FIG. 5 is a rear view of the cloth synchronous printing, dyeing and air-drying apparatus of the present invention;

fig. 6 is a schematic perspective view of a first unwinding mechanism of a synchronous cloth printing, dyeing and air drying device of the present invention;

fig. 7 is the utility model discloses a three-dimensional structure schematic diagram of the synchronous printing and dyeing air-drying equipment's of cloth first dryer subassembly.

The reference numbers in the figures are:

1. a first unwinding roller mechanism; 1a, a first roller; 1b, a fixing frame; 1b1, guide bar; 1b2, blocking sheet; 1c, a second roller; 1d, connecting plates; 1e, a spring;

2. a second unwinding roller mechanism;

3. a dye box; 3a, a first dyeing lattice; 3b, a second dyeing lattice;

4. a first air duct assembly; 4a, an air duct cylinder; 4b, a support; 4c, a rotary sleeve; 4d, an air supply pipe;

5. a second air duct assembly;

6. an air duct rotating mechanism; 6a, a first belt pulley; 6b, a second belt pulley; 6c, a second servo motor;

7. a stirring mechanism; 7a, a first stirring rod; 7b, a second stirring rod; 7c, a first synchronous wheel; 7d, a second synchronizing wheel; 7e, a third servo motor; 7f, a second right-angle reducer;

8. an unwinding driving mechanism; 8a, a first gear; 8b, a second gear; 8c, a chain; 8d, a first servo motor; 8e, a first right angle reducer;

9. a driven roller set; 9a, a first driven rod; 9b, a second driven rod; 9c, a third driven lever.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 7, the synchronous cloth printing, dyeing and air-drying device includes a first unwinding roller mechanism 1, a second unwinding roller mechanism 2, a dye box 3, a first air duct assembly 4, a second air duct assembly 5, an air duct rotating mechanism 6, a stirring mechanism 7, an unwinding driving mechanism 8 and a driven roller set 9;

the dyeing box 3 is divided into a first dyeing lattice 3a and a second dyeing lattice 3b, a first unwinding roller mechanism 1 and a second unwinding roller mechanism 2 are respectively arranged at the feeding end of the first dyeing lattice 3a and the discharging end of the second dyeing lattice 3b, the output end of an unwinding driving mechanism 8 is in transmission connection with the stressed ends of the first unwinding roller mechanism 1 and the second unwinding roller mechanism 2, three driven roller sets 9 are respectively a first driven rod 9a, a second driven rod 9b and a third driven rod 9c, the first driven rod 9a and the second driven rod 9b are respectively arranged in the first dyeing lattice 3a and the second dyeing lattice 3b, the third driven rod 9c is arranged between the first dyeing lattice 3a and the second dyeing lattice 3b, the third driven rod 9c is higher than the first driven rod 9a and the second driven rod 9b, the first air duct driven assembly 4 is arranged between the first driven rod 9a and the third driven rod 9c, the second air duct assembly 5 is arranged between the second driven rod 9b and the third driven rod 9c, the output end of the air duct rotating mechanism 6 is in transmission connection with the stressed ends of the first air duct assembly 4 and the second air duct assembly 5, the stirring mechanism 7 is installed on the dye box 3, and the working end of the stirring mechanism 7 is respectively positioned in the first dyeing lattice 3a and the second dyeing lattice 3 b;

the worker leads the cloth to pass through the working end of the first unwinding roller mechanism 1, then the cloth passes through the bottom of the first driven rod 9a, the top of the third driven rod 9c, the bottom of the second driven rod 9b and the working end of the second unwinding roller mechanism 2, the unwinding driving mechanism 8 starts to work, the output end of the unwinding driving mechanism 8 drives the working ends of the first unwinding roller mechanism 1 and the second unwinding roller mechanism 2 to start to rotate in the same direction, the first driven rod 9a is positioned in the dye of the first dyeing grid 3a, so the cloth positioned at the first driven rod 9a enters the dye in the first dyeing grid 3a to be dyed, the first working end of the stirring mechanism 7 continuously drives the dye in the first dyeing grid 3a to the cloth to enable the dyeing of the cloth to be more sufficient, the dyed cloth starts to rise to the working end of the first air duct assembly 4 in the process of the third driven rod 9c, dryer rotary mechanism 6 drives first dryer subassembly 4 and begins to rotate, the direction of rotation of first dryer subassembly 4 is on the contrary in the moving direction of cloth, first dryer subassembly 4 blows rotatory dry that makes the cloth can be faster on one side, then the cloth descends to second follower lever 9b department once more and carries out the second dyeing in getting into second dyeing check 3b and make the colour of cloth more firm, the second work end of rabbling mechanism 7 dyes the dyestuff in check 3b with the second and does not stop to beat on the cloth and make the dyeing of cloth more abundant, cloth after the secondary dyeing can pass through second dryer subassembly 5 before reaching second unwinding roller mechanism 2, the operating condition of second dryer subassembly 5 is unanimous with the operating condition of first dryer subassembly 4, cloth after the final double-coloring is sent out it by second unwinding roller mechanism 2.

As shown in fig. 6, the first unwinding roller mechanism 1 and the second unwinding roller mechanism 2 have the same structure, the first unwinding roller mechanism 1 includes a first roller 1a, a fixing frame 1b, a second roller 1c and a connecting plate 1d, two ends of the first roller 1a are mounted at the feeding end of the first dye cell 3a through the fixing frame 1b, the second roller 1c is located right above the first roller 1a, two ends of the second roller 1c are both rotatably connected with the connecting plate 1d, the fixing frame 1b is provided with a guide rod 1b1, the guide rod 1b1 penetrates through the connecting plate 1d, the end of the guide rod 351 b1 is provided with a blocking piece 1b2, the spring 1e is sleeved on the guide rod 1b1, and the spring 1e is located between the blocking piece 1b2 and the connecting plate 1 d;

promote connecting plate 1d through spring 1e, connecting plate 1d promotes second gyro wheel 1c, and second gyro wheel 1c is close to first gyro wheel 1a and presss from both sides the cloth tightly, unreels actuating mechanism 8 and drives first gyro wheel 1a pivoted while the cloth can stimulate second gyro wheel 1c cooperation and rotate, and mount 1b is used for fixed first gyro wheel 1a and rotatable coupling, and guide bar 1b1 and separation blade 1b2 are used for guiding the direction of promotion of spring 1 e.

As shown in fig. 4, the unwinding driving mechanism 8 includes a first gear 8a, a second gear 8b, a chain 8c, a first servo motor 8d and a first right-angle reducer 8e, the first servo motor 8d is installed on the dye box 3, the first right-angle reducer 8e is installed at the output end of the first servo motor 8d, the first gear 8a is installed at the output end of the second right-angle reducer, the second gear 8b is respectively installed at the stressed ends of the first rollers 1a of the first unwinding roller mechanism 1 and the second unwinding roller mechanism 2, and the first gear 8a is in transmission connection with the two second gears 8b through the chain 8c at a right angle;

the first servo motor 8d starts to work, the first right-angle reducer 8e driven by the first servo motor 8d starts to rotate, the first right-angle reducer 8e drives the first gear 8a to start to rotate, the first gear 8a drives the two second gears 8b to start to rotate through the chain 8c, and the two second gears 8b drive the first idler wheels 1a of the first unwinding roller mechanism 1 and the first idler wheels 1a of the second unwinding roller mechanism 2 to start to rotate in the same direction.

As shown in fig. 7, the first air duct assembly 4 and the second air duct assembly 5 have the same structure, the first air duct assembly 4 includes an air duct tube 4a, a support 4b, a rotary sleeve 4c and an air supply pipe 4d, the air duct tube 4a is mounted on the fuel tank through the support 4b, an air outlet is arranged on the air duct tube 4a in a surrounding manner, one end of the air duct tube 4a is open, the rotary sleeve 4c is positioned at the opening of the air duct tube 4a, the inner edge of the rotary sleeve 4c is rotatably connected with the air duct tube 4a, the outer edge of the rotary sleeve 4c is fixedly connected with the support 4b, the rotary sleeve 4c is provided with an air inlet, and the air supply pipe 4d is connected with the rotary sleeve;

the air inlet end of the air supply pipe 4d is connected with an air pump or an air supply mechanism, air flow firstly enters the air supply pipe 4d and then enters the air duct pipe through the rotary sleeve 4c, at the moment, the air duct pipe rotates in the direction opposite to the moving direction of the cloth, and the air flow is sprayed out from the air outlet of the air duct pipe in a rotating mode and dries the cloth.

The air duct rotating mechanism 6 shown in fig. 5 comprises a first belt pulley 6a, a second belt pulley 6b and a second servo motor 6c, the second servo motor 6c is mounted on the dye box 3, the first belt pulley 6a is mounted at the output end of the second servo motor 6c, the second belt pulley 6b is mounted at the closed end of the first air duct assembly 4 and the second air duct assembly 5, and the first belt pulley 6a and the second belt pulley 6b are in transmission connection through a belt;

the air duct rotating mechanism 6 starts to work, the second servo motor 6c starts to work, the output end of the second servo motor 6c drives the first belt pulley 6a to rotate, and the first belt pulley 6a drives the two second belt pulleys 6b to rotate in the moving direction opposite to the cloth through the belt.

As shown in fig. 4, the stirring mechanism 7 includes a first stirring rod 7a, a second stirring rod 7b, a first synchronous wheel 7c, a second synchronous wheel 7d, a third servo motor 7e and a second right-angle reducer 7f, the first stirring rod 7a and the second stirring rod 7b are respectively installed in the first dyeing grid 3a and the second dyeing grid 3b, the third servo motor 7e is installed on the dye box 3, the second right-angle reducer 7f is installed at the output end of the third servo motor 7e, the first synchronous wheel 7c is installed at the output end of the second right-angle reducer 7f, the second synchronous wheel 7d is respectively installed at the stressed end of the first stirring rod 7a and the second stirring rod 7b, and the first synchronous wheel 7c is connected with the two second synchronous wheels 7d through a synchronous belt drive;

rabbling mechanism 7 begins work, third servo motor 7e drives second right angle reduction gear 7f and begins to rotate, second right angle reduction gear 7f drives first synchronizing wheel 7c and rotates, first synchronizing wheel 7c drives two second synchronizing wheels 7d through the hold-in range and rotates simultaneously, the direction of rotation is opposite in the moving direction of cloth, the rotation through first stirring rod 7a and second stirring rod 7b makes coloring of cloth more abundant.

The utility model discloses a theory of operation: the worker makes the cloth pass through the working end of the first unwinding roller mechanism 1, then pass through the bottom of the first driven rod 9a, pass through the top of the third driven rod 9c, then pass through the bottom of the second driven rod 9b, and finally pass through the working end of the second unwinding roller mechanism 2, the unwinding driving mechanism 8 starts to work, the first servo motor 8d drives the first right-angle reducer 8e to start to rotate, the first right-angle reducer 8e drives the first gear 8a to start to rotate, the first gear 8a drives the two second gears 8b to start to rotate through the chain 8c, the two second gears 8b drive the first rollers 1a of the first unwinding roller mechanism 1 and the second unwinding roller mechanism 2 to start to rotate in the same direction at the same time, the cloth can pull the second rollers 1c to rotate in a matching manner, the first driven rod 9a is positioned in the dye of the first dye grid 3a, so the cloth that is located first driven lever 9a gets into and dyes in the dyestuff in first dyeing check 3a, the first stirring rod 7a of rabbling mechanism 7 is with the dyestuff in first dyeing check 3a incessantly beat the cloth on making the dyeing of cloth more abundant, the cloth after dyeing begins to rise to the process of third driven lever 9c in-process through the work end of first dryer subassembly 4, dryer rotary mechanism 6 drives first dryer subassembly 4 and begins to rotate, the air current gets into air feed pipe 4d earlier, it is intraductal to pass rotary sleeve 4c entering wind channel again, the wind channel pipe is rotating to the moving direction opposite to the cloth this moment, the air current just is spouted and is weathered the cloth by the air outlet rotary type of wind channel pipe, then the cloth descends again to second dyeing check 3b department and gets into second dyeing in the second dyeing check 3b and makes the colour of cloth firmer, the second stirring rod 7b of rabbling mechanism 7 makes the dyeing of cloth of dyestuff in second dyeing check 3b incessantly beat the cloth on making the dyeing of cloth More fully, the cloth after the secondary dyeing can pass through the second air duct assembly 5 before reaching the second unwinding roller mechanism 2, the working state of the second air duct assembly 5 is consistent with that of the first air duct assembly 4, and the cloth after the final double coloring is sent out by the second unwinding roller mechanism 2.

Claims (6)

1. A cloth synchronous printing, dyeing and air-drying device is characterized by comprising a first unwinding roller mechanism (1), a second unwinding roller mechanism (2), a dye box (3), a first air duct assembly (4), a second air duct assembly (5), an air duct rotating mechanism (6), a stirring mechanism (7), an unwinding driving mechanism (8) and a driven roller set (9);

the dyeing box (3) is divided into a first dyeing lattice (3a) and a second dyeing lattice (3b), a first unwinding roller mechanism (1) and a second unwinding roller mechanism (2) are respectively arranged at the feeding end of the first dyeing lattice (3a) and the discharging end of the second dyeing lattice (3b), the output end of an unwinding driving mechanism (8) is in transmission connection with the stress ends of the first unwinding roller mechanism (1) and the second unwinding roller mechanism (2), three driven roller sets (9) are respectively a first driven rod (9a), a second driven rod (9b) and a third driven rod (9c), the first driven rod (9a) and the second driven rod (9b) are respectively arranged in the first dyeing lattice (3a) and the second dyeing lattice (3b), the third driven rod (9c) is arranged between the first dyeing lattice (3a) and the second dyeing lattice (3b), and the third driven rod (9c) is higher than the first driven rod (9a) and the second driven rod (9b), the first air duct assembly (4) is installed between the first driven rod (9a) and the third driven rod (9c), the second air duct assembly (5) is installed between the second driven rod (9b) and the third driven rod (9c), the output end of the air duct rotating mechanism (6) is in transmission connection with the stressed ends of the first air duct assembly (4) and the second air duct assembly (5), the stirring mechanism (7) is installed on the dye box (3), and the working end of the stirring mechanism (7) is located in the first dye lattice (3a) and the second dye lattice (3b) respectively.

2. The cloth synchronous printing, dyeing and air-drying equipment according to claim 1, characterized in that the first unwinding roller mechanism (1) and the second unwinding roller mechanism (2) are identical in structure, the first unwinding roller mechanism (1) comprises a first roller (1a), a fixing frame (1b), a second roller (1c) and a connecting plate (1d), two ends of the first roller (1a) are mounted at the feeding end of the first dyeing grid (3a) through the fixing frame (1b), the second roller (1c) is located right above the first roller (1a), two ends of the second roller (1c) are rotatably connected with the connecting plate (1d), the fixing frame (1b) is provided with a guide rod (1b1), the guide rod (1b1) penetrates through the connecting plate (1d), the end of the guide rod (1b1) is provided with a blocking piece (1b2), and the spring (1e) is sleeved on the guide rod (1b1), and the spring (1e) is positioned between the baffle (1b2) and the connecting plate (1 d).

3. The cloth synchronous printing, dyeing and air-drying equipment according to claim 2, characterized in that the unreeling driving mechanism (8) comprises a first gear (8a), a second gear (8b), a chain (8c), a first servo motor (8d) and a first right-angle reducer (8e), the first servo motor (8d) is installed on the dye box (3), the first right-angle reducer (8e) is installed at the output end of the first servo motor (8d), the first gear (8a) is installed at the output end of the second right-angle reducer, the second gear (8b) is respectively installed at the stressed ends of the first rollers (1a) of the first unreeling roller mechanism (1) and the second unreeling roller mechanism (2), and the first gear (8a) is in transmission connection with the two second gears (8b) through the chain (8 c).

4. The cloth synchronous printing, dyeing and air-drying equipment according to claim 1, characterized in that the first air duct assembly (4) and the second air duct assembly (5) are of the same structure, the first air duct assembly (4) comprises an air duct cylinder (4a), a support (4b), a rotary sleeve (4c) and an air supply pipe (4d), the air duct cylinder (4a) is mounted on the fuel tank through the support (4b), an air outlet is arranged on the air duct cylinder (4a) in a surrounding manner, one end of the air duct cylinder (4a) is open, the rotary sleeve (4c) is located at the opening of the air duct cylinder (4a), the inner edge of the rotary sleeve (4c) is rotatably connected with the air duct cylinder (4a), the outer edge of the rotary sleeve (4c) is fixedly connected with the support (4b), the rotary sleeve (4c) is provided with an air inlet, and the air supply pipe (4d) is connected with the rotary sleeve (4 c).

5. A cloth synchronous printing, dyeing and air-drying device according to claim 4, characterized in that the air duct rotating mechanism (6) comprises a first belt pulley (6a), a second belt pulley (6b) and a second servo motor (6c), the second servo motor (6c) is installed on the dye box (3), the first belt pulley (6a) is installed at the output end of the second servo motor (6c), the second belt pulley (6b) is installed at the closed end of the first air duct component (4) and the second air duct component (5), and the first belt pulley (6a) and the second belt pulley (6b) are connected through belt transmission.

6. The cloth synchronous printing, dyeing and air-drying equipment according to claim 1, characterized in that the stirring mechanism (7) comprises a first stirring rod (7a), a second stirring rod (7b), a first synchronous wheel (7c), a second synchronous wheel (7d), a third servo motor (7e) and a second right-angle reducer (7f), the first stirring rod (7a) and the second stirring rod (7b) are respectively installed in the first dyeing lattice (3a) and the second dyeing lattice (3b), the third servo motor (7e) is installed on the dyeing box (3), the second right-angle reducer (7f) is installed at the output end of the third servo motor (7e), the first synchronous wheel (7c) is installed at the output end of the second right-angle reducer (7f), the second synchronous wheel (7d) is respectively installed at the stressed end of the first stirring rod (7a) and the second stirring rod (7b), the first synchronizing wheel (7c) is connected with the two second synchronizing wheels (7d) through a synchronous belt.

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