CN113445232A

CN113445232A - Environment-friendly garment fabric closed type printing and dyeing device and printing and dyeing method thereof

Info

Publication number: CN113445232A
Application number: CN202110753728.1A
Authority: CN
Inventors: 周建国
Original assignee: Yiyang Xiaoxingxing Clothing Co ltd
Current assignee: Yiyang Xiaoxingxing Clothing Co ltd
Priority date: 2021-07-02
Filing date: 2021-07-02
Publication date: 2021-09-28

Abstract

The invention relates to the technical field of printing and dyeing devices, and discloses an environment-friendly garment fabric closed printing and dyeing device and a printing and dyeing method thereof; the closed printing and dyeing device for the environment-friendly garment fabric and the printing and dyeing method thereof comprise a dye mixing mechanism, a garment printing and dyeing mechanism and a vibrating mechanism, wherein the dye mixing mechanism, the garment printing and dyeing mechanism and the vibrating mechanism are sequentially arranged from top to bottom; the dyeing machine comprises a dyeing box, a gear plate, a connecting rod, a gear disc, a connecting rod, a dye mixing mechanism and a vibrating mechanism, wherein the dye mixing mechanism comprises a mixing box, a switch cover is arranged at the top of the mixing box, fixing rods are uniformly distributed on the outer wall of the mixing box, the bottom of the gear plate penetrates through the connecting rod and is provided with a fixing column, and the bottom of the fixing column penetrates through the mixing box and is provided with a stirring rod.

Description

Environment-friendly garment fabric closed type printing and dyeing device and printing and dyeing method thereof

Technical Field

The invention belongs to the technical field of printing and dyeing devices, and particularly relates to an environment-friendly garment fabric closed printing and dyeing device and a printing and dyeing method thereof.

Background

Clothes are a general term for clothes, shoes, ornaments and the like, and are often referred to as clothes. The definition of a garment in the national standard is: the product is sewn and worn on a human body to play a role in protection and decoration, also called as clothes, and the environment-friendly clothes are clothes which are produced by adopting natural fibers as raw materials, using chemical agents and pigments which are harmless to the human body in printing and dyeing, strictly controlling harmful substances such as formaldehyde residues, halogenated dyeing carriers and the like, and avoiding the use of 22 carcinogenic intermediates, more than 100 corresponding fuel additives, paint and more than 10 harmful heavy metals, and the printing and dyeing is also called as dyeing and finishing, and is a processing mode which is also a general name of pretreatment, dyeing, printing, after finishing, washing water and the like.

The existing environment-friendly clothes have certain disadvantages in printing and dyeing, and when the existing environment-friendly clothes are used for dyeing, dyes are stirred and then transferred to a printing and dyeing box, so that secondary transportation cost is generated, the cost expense is increased, the working time is increased during transferring, and the working efficiency is reduced; therefore, improvements are now needed in view of the current situation.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the closed printing and dyeing device for the environment-friendly garment fabric and the printing and dyeing method thereof, and the problems that the secondary transportation cost is generated when the dye is stirred and then transferred to a printing and dyeing box during dyeing of the existing environment-friendly garment, the cost is increased, the working time is increased during transferring, and the working efficiency is reduced are effectively solved.

In order to achieve the purpose, the invention provides the following technical scheme: the closed printing and dyeing device for the environment-friendly garment fabric comprises a dye mixing mechanism, a garment printing and dyeing mechanism and a vibrating mechanism, wherein the dye mixing mechanism, the garment printing and dyeing mechanism and the vibrating mechanism are sequentially arranged from top to bottom;

the dyestuff mixing mechanism includes the mixing box, the mixing box top is provided with the switch cover, the mixing box outer wall is provided with evenly distributed's dead lever, the dead lever looks the side all and is provided with the fixed plate, the fixed plate top is run through and is provided with the round hole, the round hole inner chamber is provided with the ball, the dead lever top is provided with first motor, run through bottom the first motor the dead lever is provided with the connecting rod, first motor drive end is provided with conical gear, the connecting rod top is provided with the toothed disc, the toothed disc with conical gear meshing, the toothed disc bottom is run through the connecting rod is provided with the fixed column, the ball sets up the fixed column outer wall, the fixed column bottom is run through the mixing box is provided with the stirring rod.

Preferably, a fixed block is arranged at the top of the fixed rod, the first motor is located at the top of the fixed block, and the fixed plate is located at the top of the mixing box.

Preferably, the garment printing and dyeing mechanism comprises a printing and dyeing box, a top plate is arranged at the top of the printing and dyeing box, and a discharge door is arranged on the surface of the printing and dyeing box.

Preferably, the top plate bottom is provided with the telescopic link that distributes evenly, the telescopic link outer wall all is provided with first spring, the telescopic link bottom all is provided with the flat board, the flat board with the top plate looks the side and is provided with the cylinder.

Preferably, the visible sides of the top plate and the flat plate are provided with telescopic pipes, the mixing box is provided with a feed opening which penetrates through the mixing box, the top plate, the telescopic pipes and the flat plate corresponding to the telescopic pipes, the bottom of the flat plate is provided with a baffle plate, the bottom of the baffle plate is provided with a square block, the top of the square block is provided with a second motor, the transmission end of the second motor is connected with the baffle plate, and the bottom of the square block is provided with a clamping groove.

Preferably, the inner side wall of the printing and dyeing box is provided with a moving groove, a bottom plate is arranged in the inner cavity of the moving groove, a discharge hole penetrating through the bottom plate is formed in the top of the bottom plate, and a heating pipe is arranged in the printing and dyeing box.

Preferably, vibrate the mechanism and including vibrating the case, vibrate the case right side and seted up the spout, the spout inner chamber is provided with the plectrum, it is provided with the supporting shoe to vibrate the case right side, the supporting shoe with the plectrum looks the side and is provided with the second spring, the plectrum top is provided with the fixture block, the fixture block runs through the discharge opening, the plectrum with the bottom plate looks the side and is provided with the third spring, it is provided with the bin outlet to vibrate case rear bottom.

Preferably, the inner cavity of the oscillation box is provided with a second bending pipe and symmetrically distributed first bending pipes, the second bending pipe and the left sides of the two first bending pipes all penetrate through the oscillation box, the left side of the oscillation box is provided with a support plate, the top of the support plate is provided with a third motor, a transmission end of the third motor is connected with the second bending pipe, a first belt is arranged on the outer wall of the first bending pipe and the outer wall of the second bending pipe in front of the third motor, and a second belt is arranged on the outer wall of the first bending pipe and the outer wall of the second bending pipe in back of the third motor.

Preferably, the use method of the closed printing and dyeing device for the environment-friendly garment fabric comprises the following steps:

s1: mixing dyes: open the switch lid, the dyestuff that will mix drops into the mixing box inner chamber in proper order, treat that whole mixed dyestuff puts in and finishes, close the switch lid, start first motor, first motor drive end rotates and drives conical gear and connecting rod rotation, the connecting rod rotates and drives the toothed disc rotation, the toothed disc rotates around conical gear turnover along with the connecting rod, toothed disc and conical gear meshing, carry out the rotation in the turnover, the toothed disc drives the fixed column and rotates, fixed plate 103 sets up the round hole and plays the supporting role to the ball, set up the ball and play the additional action to the fixed column, the fixed column rotates along with the toothed disc and drives the stirring rod rotatory, make the dyestuff misce bene in the mixing box.

S2: printing: and opening the discharge door, selecting the printing template provided with the required design and color, and clamping the printing template with the clamping groove arranged at the bottom of the square block so as to be convenient for carrying out the subsequent printing step.

S3: a dyeing procedure: the cloth is flatly put into the printing and dyeing box, the discharge door is closed, the second motor is started, the transmission end of the second motor rotates to drive the baffle to rotate, the feed opening is opened, the dye enters the printing and dyeing box through the telescopic pipe, the third motor is started, the transmission end of the third motor rotates to drive the first belt, the second belt and the second bending pipe rotate, the first bending pipe on the front side and the back side of the first belt and the second belt rotate, the bending angles of the first bending pipe and the second bending pipe are different, when the first bending pipe and the second bending pipe rotate, the first bending pipe and the second bending pipe are in intermittent contact with the bottom plate, the bottom plate 209 is driven to irregularly lift, the dye vibrates, and the dip-dyeing speed is accelerated.

S4: and (3) discharging: waiting that the cloth dyeing finishes, pressing the plectrum, the plectrum moves down and drives the fixture block and move down, and the fixture block shifts out the discharge opening, and the dyestuff flows to shaking the incasement along the discharge opening, shakes the bottom of the case portion and is provided with the bin outlet, and the drain outlet is connected drainage pipe, and the dyestuff that gets into shaking the incasement flows into drainage pipe along the bin outlet and discharges and shake the case.

S5: and (3) drying: and after all the dye is discharged from the printing and dyeing box, opening a heating pipe arranged in the printing and dyeing box, and drying the cloth by using heat generated by the working of the heating pipe.

S6: printing: after the cloth is dried, the cylinder is started, the telescopic end of the cylinder stretches to drive the flat plate to move downwards, the flat plate moves downwards to drive the square blocks to move downwards, so that the printing template is in contact with the cloth, the telescopic end of the cylinder continuously presses downwards, the printing template fully presses the cloth, and the printing is ensured to be complete

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the dye mixing mechanism is added, so that the transferring steps can be reduced, the time is saved, the dye is put into the mixing box, and the dye is mixed by the dye mixing mechanism, so that the working efficiency is greatly improved.

The dyeing device can automatically put in the mixed dye to dye the cloth in the dyeing box, discharge the dye out of the dyeing box after dyeing is finished, install the printing plate according to the required design and color and print the cloth.

According to the invention, the vibrating mechanism is arranged at the bottom of the printing and dyeing box, and the vibrating mechanism is used for vibrating the bottom plate in the printing and dyeing box, so that the bottom plate vibrates, the dye generates ripples, the dye after the ripples can more quickly soak the cloth for dip-dyeing, and the dip-dyeing time is saved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of a dye mixing mechanism according to the present invention;

FIG. 3 is an inside view of the garment dyeing and printing mechanism of the present invention;

FIG. 4 is a rear view of the oscillating mechanism of the present invention;

FIG. 5 is a structural internal view of the present invention;

FIG. 6 is a flow chart of the present invention.

In the figure: 1. a dye mixing mechanism; 2. a garment printing and dyeing mechanism; 3. a vibrating mechanism; 100. a mixing box; 101. a switch cover; 102. fixing the rod; 103. a fixing plate; 104. a first motor; 105. a bevel gear; 106. a connecting rod; 107. a gear plate; 108. fixing a column; 109. a ball; 110. a stirring rod; 200. printing and dyeing boxes; 2001. a discharge door; 201. a top plate; 202. a telescopic pipe; 203. a cylinder; 204. a telescopic rod; 205. a first spring; 206. a flat plate; 207. a square block; 208. a baffle plate; 209. a base plate; 300. A vibration box; 301. a shifting sheet; 302. a support block; 303. a second spring; 304. a clamping block; 305. a first bent tube; 306. a second bent tube; 307. a third motor; 308. a first belt; 309. a second belt; 310. and a support 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, a closed printing and dyeing device for environmental protection clothing fabric includes a dye mixing mechanism 1, a clothing printing and dyeing mechanism 2, and a vibrating mechanism 3.

Referring to fig. 1, a dye mixing mechanism 1, a garment dyeing mechanism 2 and a vibrating mechanism 3 are sequentially arranged from top to bottom.

Referring to fig. 1-2, a dye mixing mechanism 1 includes a mixing box 100, a switch cover 101 is disposed on the top of the mixing box 100, fixing rods 102 are uniformly distributed on the outer wall of the mixing box 100, fixing plates 103 are disposed on the opposite sides of the fixing rods 102, a circular hole is disposed through the top of the fixing plates 103, a round ball 109 is disposed in the cavity of the circular hole, a first motor 104 is disposed on the top of the fixing rods 102, a connecting rod 106 is disposed at the bottom of the first motor 104 through the fixing rods 102, a conical gear 105 is disposed at the transmission end of the first motor 104, a gear disc 107 is disposed at the top of the connecting rod 106, the gear disc 107 is engaged with the conical gear 105, a fixing column 108 is disposed at the bottom of the gear disc 107 through the connecting rod 106, the round ball 109 is disposed on the outer wall of the fixing column 108, a stirring rod 110 is disposed at the bottom of the mixing box 100 through the top of the fixing rods 102, the first motor 104 is disposed at the top of the fixing blocks, and the fixing plates 103 is disposed at the top of the mixing box 100; set up the first motor 104 of fixed block and provide the holding power, set up conical gear 105 and toothed disc 107 and connect, make toothed disc 107 along with first motor 104 transmission end pivoted while with the power of conical gear 105 meshing production rotation, make fixed column 108 drive stirring rod 110 work, better stir the dyestuff and mix.

Referring to fig. 1-3, a garment dyeing mechanism 2 includes a dyeing box 200, a top plate 201 is disposed on the top of the dyeing box 200, a discharge door 2001 is disposed on the surface of the dyeing box 200, uniformly distributed telescopic rods 204 are disposed on the bottom of the top plate 201, first springs 205 are disposed on the outer walls of the telescopic rods 204, flat plates 206 are disposed on the bottoms of the telescopic rods 204, air cylinders 203 are disposed on the viewing sides of the flat plates 206 and the top plate 201, telescopic tubes 202 are disposed on the viewing sides of the top plate 201 and the flat plates 206, a feeding port penetrating through the mixing box 100, the top plate 201, the telescopic tubes 202 and the flat plates 206 is disposed at the position of the mixing box 100 corresponding to the telescopic tubes 202, a baffle plate 208 is disposed at the bottom of the baffle plate 208, a second motor is disposed on the top of the block 207, a transmission end of the second motor is connected to the baffle plate 208, a clamping groove is disposed at the bottom of the block 207, a moving groove is disposed on the inner side wall of the dyeing box 200, a bottom plate 209 is disposed in the moving groove, a discharge hole is formed in the top of the bottom plate 209 in a penetrating manner, and a heating pipe is arranged in the printing and dyeing box 200; the telescopic pipe 202 is arranged to avoid the inconvenience of up-and-down movement of the flat plate 206 caused by the fixed length of the traditional guide pipe, the telescopic rod 204 and the first spring 205 are arranged to support and connect the flat plate 206 by the auxiliary cylinder 203, and the baffle 208 can prevent dye leakage.

Referring to fig. 1-4, the oscillating mechanism 3 includes an oscillating box 300, a chute is formed on the right side of the oscillating box 300, a paddle 301 is disposed in the inner cavity of the chute, a supporting block 302 is disposed on the right side of the oscillating box 300, a second spring 303 is disposed on the viewing side of the supporting block 302 and the paddle 301, a clamping block 304 is disposed on the top of the paddle 301, the clamping block 304 penetrates through a discharge hole, a third spring is disposed on the viewing side of the paddle 301 and the bottom plate 209, a discharge outlet is disposed on the bottom of the rear side of the oscillating box 300, a second bending pipe 306 and first bending pipes 305 symmetrically distributed are disposed in the inner cavity of the oscillating box 300, the second bending pipe 306 and the left sides of the two first bending pipes 305 both penetrate through the oscillating box 300, a supporting plate 310 is disposed on the left side of the oscillating box 300, a third motor 307 is disposed on the top of the supporting plate 310, a driving end of the third motor 307 is connected with the second bending pipe 306, a first belt 308 is disposed on the outer walls of the first bending pipe 305 and the second bending pipe 306, a second belt 309 is arranged on the outer wall of the rear first bent pipe 305 and the outer wall of the rear second bent pipe 306; set up second spring 303 and third spring and provide pulling force to plectrum 301, second spring 303 and third spring are powerful springs, have fine resistance to compression effect, press the pressure of plectrum 301 cooperation dyestuff, and the effect that makes plectrum 301 move down fixture block 304 in addition artifical application of force lies in blockking up the discharge opening, avoids the dyestuff to discharge in advance.

Please refer to fig. 6: a use method of a closed printing and dyeing device for environment-friendly garment materials comprises the following steps:

s1: mixing dyes: opening switch cover 101, the dyestuff that will mix drops into mixing box 100 inner chamber in proper order, treat that whole mixed dyestuff puts in, close switch cover 101, start first motor 104, first motor 104 transmission end rotates and drives conical gear 105 and connecting rod 106 and rotate, connecting rod 106 rotates and drives gear disc 107 and rotate, gear disc 107 rotates around conical gear 105 along with connecting rod 106 and has enough to meet the need, gear disc 107 and conical gear 105 mesh, the rotation carries out in the turnover simultaneously, gear disc 107 drives fixed column 108 and rotates, fixed plate 103 sets up the round hole and plays the supporting role to ball 109, set up ball 109 and play the additional action to fixed column 108, fixed column 108 rotates along with gear disc 107 and drives stirring rod 110 rotatory, make the dyestuff misce bene in mixing box 100.

S2: printing: the discharge door 2001 is opened, the printing template with the required design and color is selected, and the printing template is clamped with the clamping groove arranged at the bottom of the square 207, so that the subsequent printing step is convenient to carry out.

S3: a dyeing procedure: the cloth is flatly placed into the printing and dyeing box 200, the discharging door 2001 is closed, the second motor is started, the transmission end of the second motor rotates to drive the baffle plate 208 to rotate, the feeding opening is opened, the dye enters the printing and dyeing box 200 through the telescopic pipe 202, the third motor 307 is started, the transmission end of the third motor 307 rotates to drive the first belt 308, the second belt 309 and the second bending pipe 306 to rotate, the first belt 308 and the second belt 309 drive the front and rear first bending pipe 305 to rotate, the bending angles of the first bending pipe 305 and the second bending pipe 306 are different, when the first bending pipe 305 and the second bending pipe 306 rotate, the first bending pipe 305 and the second bending pipe 306 are in intermittent contact with the bottom plate 209, the bottom plate 209 is driven to irregularly lift, the dye is vibrated, and the dip-dyeing speed is accelerated.

S4: and (3) discharging: after the cloth dyeing is finished, the poking piece 301 is pressed, the poking piece 301 moves downwards to drive the clamping block 304 to move downwards, the clamping block 304 moves out of the discharge hole, the dye flows into the oscillating box 300 along the discharge hole, the bottom of the oscillating box 300 is provided with a discharge outlet, the discharge outlet is connected with a drainage pipeline, and the dye entering the oscillating box 300 flows into the drainage pipeline along the discharge outlet and is discharged out of the oscillating box 300.

S5: and (3) drying: after all the dye is discharged from the printing and dyeing box 200, the heating pipe arranged in the printing and dyeing box 200 is opened, and the heating pipe works to generate heat to dry the cloth.

S6: printing: after the cloth is dried, the air cylinder 203 is started, the telescopic end of the air cylinder 203 stretches to drive the flat plate 206 to move downwards, the flat plate 206 moves downwards to drive the square block 207 to move downwards, so that the printing template is in contact with the cloth, and the telescopic end of the air cylinder 203 is continuously pressed downwards to fully press the cloth, so that the printing is complete.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a closed printing and dyeing device of environmental protection garment materials, includes dyestuff mixing mechanism (1), clothing printing and dyeing mechanism (2) and vibrates mechanism (3), its characterized in that: the dye mixing mechanism (1), the garment dyeing mechanism (2) and the vibrating mechanism (3) are sequentially arranged from top to bottom;

the dye mixing mechanism (1) comprises a mixing box (100), a switch cover (101) is arranged at the top of the mixing box (100), fixing rods (102) which are uniformly distributed are arranged on the outer wall of the mixing box (100), fixing plates (103) are arranged on the visual sides of the fixing rods (102), a round hole is formed in the top of each fixing plate (103) in a penetrating mode, a round ball (109) is arranged in the inner cavity of the round hole, a first motor (104) is arranged at the top of each fixing rod (102), a connecting rod (106) is arranged at the bottom of each first motor (104) in a penetrating mode through each fixing rod (102), a conical gear (105) is arranged at the transmission end of each first motor (104), a gear disc (107) is arranged at the top of each connecting rod (106), the gear discs (107) are meshed with the conical gears (105), and a fixing column (108) is arranged at the bottom of each gear disc (107) in a penetrating mode through each connecting rod (106), the round ball (109) is arranged on the outer wall of the fixed column (108), and the bottom of the fixed column (108) penetrates through the mixing box (100) and is provided with a stirring rod (110).

2. The closed printing and dyeing device for the environment-friendly garment fabric as claimed in claim 1, wherein: the top of the fixing rod (102) is provided with a fixing block, the first motor (104) is located at the top of the fixing block, and the fixing plate (103) is located at the top of the mixing box (100).

3. The closed printing and dyeing device for the environment-friendly garment fabric as claimed in claim 1, wherein: the garment printing and dyeing mechanism (2) comprises a printing and dyeing box (200), a top plate (201) is arranged at the top of the printing and dyeing box (200), and a discharging door (2001) is arranged on the surface of the printing and dyeing box (200).

4. The closed printing and dyeing device for the environment-friendly garment fabric as claimed in claim 3, wherein: roof (201) bottom is provided with evenly distributed telescopic link (204), telescopic link (204) outer wall all is provided with first spring (205), telescopic link (204) bottom all is provided with flat board (206), flat board (206) with roof (201) looks the side and is provided with cylinder (203).

5. The closed printing and dyeing device for the environment-friendly garment fabric as claimed in claim 4, wherein: the device is characterized in that telescopic pipes (202) are arranged on the viewing side of the top plate (201) and the flat plate (206), a feeding port penetrating through the mixing box (100), the top plate (201), the telescopic pipes (202) and the flat plate (206) is arranged at the position, corresponding to the telescopic pipes (202), of the mixing box (100), a baffle (208) is arranged at the bottom of the flat plate (206), a square plate (207) is arranged at the bottom of the baffle (208), a second motor is arranged at the top of the square plate (207), the transmission end of the second motor is connected with the baffle (208), and a clamping groove is formed in the bottom of the square plate (207).

6. The closed printing and dyeing device for the environment-friendly garment fabric as claimed in claim 3, wherein: the printing and dyeing box is characterized in that a moving groove is formed in the inner side wall of the printing and dyeing box (200), a bottom plate (209) is arranged in the inner cavity of the moving groove, a discharging hole penetrating through the moving groove is formed in the top of the bottom plate (209), and a heating pipe is arranged in the printing and dyeing box (200).

7. The closed printing and dyeing device for the environment-friendly garment fabric as claimed in claim 1, wherein: vibrate mechanism (3) including vibrating case (300), vibrate case (300) right side and seted up the spout, the spout inner chamber is provided with plectrum (301), it is provided with supporting shoe (302) to vibrate case (300) right side, supporting shoe (302) with plectrum (301) looks the side and is provided with second spring (303), plectrum (301) top is provided with fixture block (304), fixture block (304) run through the discharge opening, plectrum (301) with bottom plate (209) looks the side and is provided with the third spring, it is provided with the bin outlet to vibrate case (300) rear bottom.

8. The closed printing and dyeing device for the environment-friendly garment fabric as claimed in claim 7, wherein: vibrate case (300) inner chamber and be provided with the second and buckle first pipe (305) of buckling of pipe (306) and symmetric distribution, the second is buckled pipe (306) and two first pipe (305) left sides of buckling and is all run through vibrate case (300), it is provided with backup pad (310) to vibrate case (300) left side, backup pad (310) top is provided with third motor (307), third motor (307) transmission end with second is buckled pipe (306) and is connected, the place ahead first pipe (305) of buckling with second is buckled pipe (306) outer wall and is provided with first belt (308), rear first pipe (305) of buckling with second is buckled pipe (306) outer wall and is provided with second belt (309).

9. The use method of the closed printing and dyeing device for the environment-friendly garment fabric according to any one of claims 1 to 8, characterized by comprising the following steps: the method comprises the following steps:

s1: mixing dyes: opening a switch cover (101), sequentially throwing dyes to be mixed into an inner cavity of a mixing box (100), closing the switch cover (101) after all the mixed dyes are thrown, starting a first motor (104), rotating a transmission end of the first motor (104) to drive a conical gear (105) and a connecting rod (106) to rotate, rotating the connecting rod (106) to drive a gear disc (107) to rotate, rotating the gear disc (107) along with the connecting rod (106) to rotate to revolve around the conical gear (105), and meshing the gear disc (107) with the conical gear (105), rotation is carried out while the turnover, the gear disc (107) drives the fixed column (108) to rotate, the round hole is formed in the fixing plate (103) to support the round ball (109), the round ball (109) is arranged to assist the fixed column (108), and the fixed column (108) rotates along with the gear disc (107) to drive the stirring rod (110) to rotate, so that dyes in the mixing box (100) are uniformly mixed.

S2: printing: and (3) opening the discharge door (2001), selecting the printing template with the required design and color, and clamping the printing template with the clamping groove arranged at the bottom of the square block (207) so as to be convenient for the subsequent printing step.

S3: a dyeing procedure: the cloth is flatly placed into a printing and dyeing box (200), a discharging door (2001) is closed, a second motor is started, a transmission end of the second motor rotates to drive a baffle (208) to rotate, a feeding opening is opened, the dye enters the printing and dyeing box (200) through a telescopic pipe (202), a third motor (307) is started, a transmission end of the third motor (307) rotates to drive a first belt (308), a second belt (309) and a second bending pipe (306) to rotate, the first belt (308) and the second belt (309) drive the front and rear first bending pipe (305) to rotate, the first bending pipe (305) and the second bending pipe (306) are different in bending angle, the first bending pipe (305) and the second bending pipe (306) are in intermittent contact with a bottom plate (209) when rotating, the bottom plate 209 is driven to irregularly lift, the dye is vibrated, and the dip dyeing speed is accelerated.

S4: and (3) discharging: after the cloth dyeing is finished, the poking piece (301) is pressed, the poking piece (301) moves downwards to drive the clamping block (304) to move downwards, the clamping block (304) moves out of the discharge hole, the dye flows into the oscillation box (300) along the discharge hole, the bottom of the oscillation box (300) is provided with a discharge outlet, the discharge outlet is connected with a drainage pipeline, and the dye entering the oscillation box (300) flows into the drainage pipeline along the discharge outlet to be discharged out of the oscillation box (300).

S5: and (3) drying: after the dye is completely discharged out of the printing and dyeing box (200), a heating pipe arranged in the printing and dyeing box (200) is opened, and the heating pipe works to generate heat to dry the cloth.

S6: printing: after the cloth is dried, the air cylinder (203) is started, the telescopic end of the air cylinder (203) stretches to drive the flat plate (206) to move downwards, the flat plate (206) moves downwards to drive the square block (207) to move downwards, so that the printing template is in contact with the cloth, and the telescopic end of the air cylinder (203) continuously presses downwards to fully press the cloth, so that the printing is complete.