CN114481500B - Printing and dyeing equipment based on textile printing and dyeing low-temperature pretreatment bio-enzyme technology and printing and dyeing method thereof - Google Patents

Abstract

The invention discloses printing and dyeing equipment based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology and a printing and dyeing method thereof, and relates to the technical field of printing and dyeing equipment. The method comprises the following steps: the dyeing box is used for pad dyeing woven cloth, a guide roller used for guiding the woven cloth is arranged inside the dyeing box, a water pump and a filter screen used for performing circulating filtration on dye are arranged on one side of the dyeing box, a pad dyeing roller used for pad dyeing after the woven cloth is dip dyed is arranged inside the dyeing box, and a conveying motor used for driving the pad dyeing roller is arranged on one side of the dyeing box. Through setting up dyestuff case and heating cabinet, wash through the cotton a pair of warming mill of clearance that the wetness degree is higher for adnexed dyestuff is washed away by effective washing on the warming mill, cleans through the cotton two pairs of warming mill after washing of clearance that moisture was extruded, carries out the secondary clearance simultaneously, makes the warming mill rotate behind the round can put into use and the surface does not contain moisture, has guaranteed the heating efficiency to weaving cloth.

Description

Printing and dyeing equipment based on textile printing and dyeing low-temperature pretreatment bio-enzyme technology and printing and dyeing method thereof

Technical Field

The invention relates to the technical field of printing and dyeing equipment, in particular to printing and dyeing equipment based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology and a printing and dyeing method thereof.

Background

The dyeing and printing are processing modes, which are also general names of pretreatment, dyeing, printing, after finishing, washing and the like, the existing technology has two mature dyeing and printing modes, one mode is dip dyeing, the other mode is pad dyeing, the dip dyeing mode is mainly used for soaking and coloring the textile cloth for a long time, the pad dyeing is to press the dye into the textile cloth through a roller after soaking the textile cloth for a short time, the pretreatment process of the textile cloth generally adopts a biological enzyme treatment process at present, and the textile cloth treated by the low-temperature biological enzyme effectively reduces surface fluff; preventing pilling of the fabric; the hand feeling performance of the fabric is improved; the fabric drapability is improved; improving the water absorption of the fabric; improve the affinity of the fabric and the dye and the color giving rate.

Among the prior art, adopt weaving cloth after the biological enzyme treatment of low temperature need not to dip dye for a long time, so generally adopt the pad dyeing technology, need dry to it after the weaving cloth pad dyeing, its surface adheres to the dyestuff easily when drying to the weaving cloth after the pad dyeing to the drying roller group, it can lead to the dyestuff solidification on the drying roller group not clear up it for a long time, adhere to the weaving cloth of other colours easily when drying to the weaving cloth of other colours, at this moment just need the stop equipment to consume a large amount of time and clear up the drying roller group, seriously influence machining efficiency, bring serious puzzlement for the staff.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a printing and dyeing device and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology comprise:

the dyeing box is used for pad dyeing of the textile cloth, a guide roller for guiding the textile cloth is arranged inside the dyeing box, a water pump and a filter screen for circularly filtering dyes are arranged on one side of the dyeing box, a pad dyeing roller for pad dyeing of the textile cloth after dip dyeing is arranged inside the dyeing box, and a conveying motor for driving the pad dyeing roller is arranged on one side of the dyeing box;

the heating box is arranged on one side of the dyeing box, at least two heating rollers are arranged in the heating box, and at least one heating element is arranged in the heating rollers;

at least two cleaning cavities are formed in the heating box, and a first cleaning conveying belt and a second cleaning conveying belt are sequentially arranged in each cleaning cavity;

the surface of the first cleaning conveyor belt is provided with a first cleaning cotton, the surface of the first cleaning cotton is attached to the surface of one of the heating rollers, at least one first conveying roller rotatably arranged in the cleaning cavity is sleeved in the first cleaning conveyor belt, and a first cleaning brush for cleaning the first cleaning cotton is arranged in the cleaning cavity;

a second cleaning cotton is arranged on the surface of the second cleaning conveyor belt, the surface of the second cleaning cotton is attached to the surface of one of the heating rollers, at least one second conveying roller rotatably arranged in the cleaning cavity is sleeved inside the second cleaning conveyor belt, and a second cleaning brush used for cleaning the second cleaning cotton is arranged inside the cleaning cavity;

two sides of the heating box are respectively provided with a driving motor for rotating the first conveying roller and the second conveying roller, and an adjusting mechanism for controlling the wettability of the first cleaning cotton is also arranged in the cleaning cavity;

the adjusting mechanism comprises a second fixing plate arranged in the cleaning cavity, a movable frame is movably sleeved in the second fixing plate, an adjusting block with one end abutting against the first cleaning cotton is arranged in the movable frame, a movable plate is movably arranged on the second fixing plate, a first abutting block is arranged on the movable plate, a second abutting block abutting against the first abutting block is arranged in the movable frame, and the movable plate is moved to enable the first abutting block to abut against or be away from the second abutting block so as to control the abutting strength of the adjusting block against the first cleaning cotton;

a water squeezing plate for controlling the second degree of wetness of the cleaning cotton is arranged in the cleaning cavity;

and one side of the inner wall of the cleaning cavity is provided with a positioning mechanism for locking the movable plate.

As a preferable technical scheme of the invention, one side of the inner wall of the dye box is provided with a pump water inlet and a circulating port positioned above the pump water inlet, the number of the circulating ports is not less than one, the number of the guide rollers is not less than three, two of the guide rollers are horizontally arranged, and the circulating port is positioned between the two horizontally arranged guide rollers.

As a preferable technical scheme, one side of the dye box is provided with a pump box, the water pump is arranged in the pump box, the input end of the water pump is communicated with a water pumping port, the output end of the water pump is communicated with the filter box through a fixed pipe, the top of the filter box is provided with a top cover, the filter box is provided with a flow dividing pipe, and one end, far away from the filter box, of the flow dividing pipe is communicated with a circulating port.

As a preferred technical scheme of the invention, a support rod is arranged inside the fixed pipe, a valve plate is arranged at the top of the support rod through a spring, one end of the valve plate is hinged with the bottom surface of the inner wall of the filter box, a sealing gasket is further arranged at the hinged position of the valve plate and the filter box, a support rod is arranged at the bottom of the top cover, and the filter screen is arranged at the bottom of the support rod.

As a preferable technical scheme of the invention, one side of the inner wall of the dye box is provided with a first liquid level sensor, the inside of the cleaning cavity is provided with a second liquid level sensor, the heating box is connected with the dye box through a first fixing plate, and the output end of the conveying motor is in transmission connection with one heating roller through a belt.

As a preferable technical solution of the present invention, a gear box is disposed at one side of the heating box, one ends of the two heating rollers extend into the gear box and are provided with gears engaged with each other to realize relative rotation of the two heating rollers, at least one heating cavity is formed in the heating roller, and the heating element is disposed in the heating cavity.

As a preferable technical scheme of the invention, the number of the water squeezing plates is not less than one, and two Zhou Zhuaigun which are respectively used for bending and guiding the first cleaning conveyor belt and the second cleaning conveyor belt are arranged in the cleaning cavity.

According to a preferable technical scheme of the invention, two ends of the movable plate respectively penetrate through two sides of the heating box, a rubber pad is arranged at the joint of the heating box and the movable plate, at least one movable groove is formed in the top of the movable plate, opposite surfaces of the first abutting block and the second abutting block are obliquely arranged, and movable holes for the movable plate to penetrate through are formed in the two sides of the movable frame.

As a preferred technical scheme of the invention, the positioning mechanism comprises a fixed rod fixedly arranged on one side of the inner wall of the heating cavity, an inserted rod with one end extending into one of the movable grooves is movably arranged in the fixed rod, a support plate is fixedly arranged on the surface of the inserted rod, and a pressure spring is arranged at the top of the support plate;

the top of inserted bar is provided with the clamp plate, the top of dead lever articulates there is the control lever that one end extends to the clamp plate bottom, the other end of control lever runs through to one side of heating cabinet, the junction of heating cabinet and control lever is provided with the rubber pad.

A printing and dyeing method of printing and dyeing equipment based on a textile printing and dyeing low-temperature pretreatment biological enzyme technology comprises the following steps:

s1, preparing, namely enabling textile cloth to be processed to sequentially penetrate through a guide roller, a cloth rolling roller and heating rollers through a guide tool, adding dye into the dye box, adding clear water into the two cleaning cavities, starting a conveying motor to drive the cloth rolling roller to rotate to convey the textile cloth after dip dyeing, pressing the dye into the textile cloth, and simultaneously driving the two heating rollers to convey the textile cloth continuously by the conveying motor;

s2, drying the textile cloth, and starting a heating element in the heating roller to heat and dry the textile cloth;

s3, cleaning the heating roller, starting a driving motor to drive a first conveying roller and a second conveying roller to rotate, driving a first cleaning conveying belt to rotate by the first conveying roller, cleaning the dye on the surface of the heating roller by the cleaning cotton with high wettability, driving a second cleaning conveying belt to rotate by the second conveying roller, driving a second pair of relatively dry cleaning cotton by the second cleaning conveying belt, and cleaning the heating roller cleaned by the first cleaning cotton again to quickly dry the surface of the heating roller;

s4, adjusting the wettability of the first cleaning cotton, pressing and controlling the lifting of the abutting pressing plate, driving the inserting rod to compress the compression spring by the pressing plate, enabling the inserting rod to be separated from the inside of the movable groove, pushing or pulling the movable plate, enabling the first abutting block to abut against the second abutting block or to be away from the second abutting block, when the first abutting block abuts against the second abutting block, extruding and lifting the second abutting block by the first abutting block, driving the adjusting block to further extrude the first cleaning cotton, and enabling accumulated water in the first cleaning cotton to be further extruded and discharged by the adjusting block when the first cleaning cotton rotates;

s5, filtering the dye, starting a water pump to pump the dye in the dye box into the filter box, ejecting the pressure-containing dye through a valve plate to open the valve plate, and re-entering the dye box through a shunt pipe and a circulation port after the dye passes through the filter screen.

Compared with the prior art, the invention provides printing and dyeing equipment based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology and a printing and dyeing method thereof, and the printing and dyeing equipment has the following beneficial effects:

1. this printing and dyeing equipment and printing and dyeing method based on weaving printing and dyeing low temperature pretreatment bio-enzyme technique, through setting up dyestuff case and heating cabinet, wash through the cotton pair of warming mill of clearance that the wetness degree is higher for adnexed dyestuff is washed away effectively on the warming mill, wipe the warming mill after washing through the cotton pair of clearance that moisture was extruded, carry out the secondary clearance simultaneously, make the warming mill rotate behind the round can put into use and the surface does not contain moisture, guaranteed the heating efficiency to weaving cloth.

2. This printing and dyeing equipment and printing and dyeing method based on weaving printing and dyeing low temperature pretreatment bio-enzyme technique through setting up dyeing case and heating cabinet, through water pump cooperation filter screen, can filter the batting in the dyestuff and collect, has avoided on adhering to weaving cloth, influences later stage machining efficiency and finished product quality, can drive rivers disturbance weaving cloth simultaneously, has further guaranteed dyeing efficiency.

3. This printing and dyeing equipment and printing and dyeing method based on weaving printing and dyeing low temperature pretreatment bio-enzyme technique, through setting up dyestuff case and heating cabinet, can control the regulating block through fly leaf and control lever and to the extrusion intensity of clearance cotton one, made things convenient for the wetting degree of user control clearance cotton one, made things convenient for the user to adjust according to the characteristic of different warming mill rollers and different dyestuff, effectively guaranteed cleaning efficiency.

Drawings

FIG. 1 is a schematic structural diagram of printing and dyeing equipment and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology, which are provided by the invention;

FIG. 2 is a schematic structural diagram of a heating box of the printing and dyeing equipment and the printing and dyeing method thereof based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology;

FIG. 3 is a sectional view of a dye box structure of printing and dyeing equipment and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology, which is provided by the invention;

FIG. 4 is a side sectional view of a dye box structure of a printing and dyeing device and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology, which is provided by the invention;

FIG. 5 is a cross-sectional side view of a filter box structure of a printing and dyeing device and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology, which is provided by the invention;

FIG. 6 is a sectional view of a heating box structure of a printing and dyeing device and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology, which is provided by the invention;

FIG. 7 is a sectional view of a heating box structure of a printing and dyeing device and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology, which is provided by the invention;

FIG. 8 is a structural section view of an adjusting mechanism of the printing and dyeing equipment and the printing and dyeing method thereof based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology;

fig. 9 is an enlarged view of the structure at a in fig. 8.

In the figure: 1. a dye box; 11. a guide roller; 12. a pump nozzle; 13. a pump box; 14. a filter box; 141. a top cover; 15. a support bar; 151. a spring; 152. a valve plate; 16. a filter screen; 17. a circulation port; 18. rolling a cloth roller; 181. a conveying motor; 19. a first liquid level sensor; 2. a heating box; 201. a gear case; 202. a drive motor; 203. a first fixing plate; 204. zhou Zhuaigun; 21. a heating roller; 22. a heating cavity; 23. cleaning the cavity; 24. cleaning the first conveying belt; 241. cleaning cotton I; 242. a first conveying roller; 243. a first cleaning brush; 25. cleaning the second conveyor belt; 251. cleaning cotton II; 252. a second conveying roller; 253. a second cleaning brush; 26. a liquid level sensor II; 27. an adjustment mechanism; 271. a second fixing plate; 272. a movable frame; 273. a movable hole; 274. an adjusting block; 275. a movable plate; 2751. a movable groove; 276. a first contact block; 277. a second contact block; 28. a water squeezing plate; 29. a positioning mechanism; 291. fixing the rod; 292. inserting a rod; 293. a pressure spring; 294. pressing a plate; 295. a control lever.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-9, a printing and dyeing apparatus and a printing and dyeing method thereof based on a textile printing and dyeing low-temperature pretreatment bio-enzyme technology includes: dye box 1 for pad dyeing textile fabric, dye box 1's inside is provided with and is used for carrying out the guide roll 11 that leads to textile fabric, dye box 1's one side is provided with and is used for carrying out loop filter's water pump and filter screen 16 to the dyestuff, dye box 1's inside is provided with and is used for carrying out pad dyeing's pad cloth roller 18 after the textile fabric dip dyeing, dye box 1's one side is provided with the conveying motor 181 that is used for driving pad cloth roller 18.

Heating cabinet 2 for textile fabric after pad dyeing heats and carries, heating cabinet 2 sets up and is provided with the warming mill 21 of being no less than two in one side of dyeing cabinet 1 and the inside of heating cabinet 2, the inside of warming mill 21 is provided with the heating element that a quantity is no less than one, and heating element can adopt electric heating wire, heating pipe, and the mode connection power of conducting ring is adopted to the one end of warming mill 21, can not influence the rotation of warming mill 21.

Two clearance chambeies 23 are no less than seted up to the inside of heating cabinet 2 quantity, clearance chamber 23 has set gradually clearance conveyer belt 24 and clearance conveyer belt two 25.

The cleaning device comprises a cleaning conveyor belt I24, a cleaning cotton I241 is arranged on the surface of the cleaning cotton I241, the surface of the cleaning cotton I241 is attached to the surface of one of the heating rollers 21, at least one conveying roller I242 which is rotatably arranged in a cleaning cavity 23 is sleeved in the cleaning conveyor belt I24, a cleaning brush I243 used for cleaning the cleaning cotton I241 is arranged in the cleaning cavity 23, at least one cleaning cotton II 251 is arranged on the surface of the cleaning conveyor belt II 25, the surface of the cleaning cotton II 251 is attached to the surface of one of the heating rollers 21, at least one conveying roller II 252 which is rotatably arranged in the cleaning cavity 23 is sleeved in the cleaning conveyor belt II 25, a cleaning brush II 253 used for cleaning the cleaning cotton II 251 is arranged in the cleaning cavity 23, the cleaning brush I243 and the cleaning brush II 253 are fixedly arranged in the cleaning cavity 23, when the cleaning conveyor belt I24 and the cleaning conveyor belt II 25 rotate, the cleaning cotton I241 and the cleaning brush II 251 are driven to abut against the cleaning brush I241 and the cleaning brush II 253, and the cleaning brush II 253 are used for cleaning the cleaning cotton I241 and the cleaning conveyor belt II 241 and the cleaning brush III 251.

Two sides of the heating box 2 are respectively provided with a driving motor 202 for rotating the first conveying roller 242 and the second conveying roller 252, the cleaning cavity 23 is further internally provided with an adjusting mechanism 27 for controlling the wetting degree of the first cleaning cotton 241, referring to fig. 2, the plurality of first conveying rollers 242 and the plurality of second conveying rollers 252 are driven by a driving belt, so that the driving motor 202 only needs to be driven by one of the first conveying rollers 242 and the second conveying rollers 252.

The adjusting mechanism 27 is including setting up in the inside second fixed plate 271 of clearance chamber 23, the inside movable sleeve of second fixed plate 271 is equipped with movable frame 272, the inside of movable frame 272 is provided with one end and the inconsistent regulating block 274 of the cotton 241 of clearance, the activity is provided with movable plate 275 on the second fixed plate 271, be provided with the conflict piece 276 on the movable plate 275, the inside conflict piece two 277 that contradicts with conflict piece 276 that is provided with of movable frame 272 removes movable plate 275 makes the conflict piece 276 is inconsistent or is kept away from mutually with conflict piece two 277, with control the conflict intensity of regulating block 274 to the cotton 241 of clearance.

The cleaning cavity 23 is internally provided with a wringing plate 28 for controlling the wettability of the second cleaning cotton 251.

And one side of the inner wall of the cleaning cavity 23 is provided with a positioning mechanism 29 for locking the movable plate 275.

As a specific technical scheme of this embodiment, pump mouth of a river 12 and the circulation mouth 17 that is located pump mouth of a river 12 top have been seted up to one side of dye box 1 inner wall, the quantity of circulation mouth 17 is no less than one, guide roll 11's quantity is no less than three and wherein two guide rolls 11 are the level setting, circulation mouth 17 is located two and is between the guide roll 11 that the level set up, and circulation mouth 17 is located two and is between the guide roll 11 that the level set up for the dyestuff circulates at the top of weaving cloth and bottom, makes dyestuff and weaving cloth fully contact, has guaranteed dyestuff efficiency.

As a specific technical scheme of this embodiment, one side of dye box 1 is provided with pump box 13, the water pump sets up in the inside of pump box 13 and the input of water pump is linked together with pump water mouth 12, be linked together through the fixed pipe between the output of water pump and the rose box 14, the top of rose box 14 is provided with top cap 141, be provided with the shunt tubes on the rose box 14 and the shunt tubes keeps away from the one end of rose box 14 and be linked together with circulation mouth 17, the inside of fixed pipe is provided with bracing piece 15, the top of bracing piece 15 is provided with valve plate 152 through spring 151, the one end of valve plate 152 is articulated with the bottom surface of rose box 14 inner wall and valve plate 152 still is provided with sealed the pad with the articulated department of rose box 14, the bottom of top cap 141 is provided with branch, filter screen 16 sets up in the bottom of branch, adopt bolted connection between top cap 141 and the rose box 14, dismantle the bolt, can take out top cap 141 and filter screen 16 and clear up, the setting of sealed pad, the leakproofness of valve plate 152 and the articulated department of rose box 14 has been guaranteed, the inside of batting through here backward flow to dyestuff case 1 has been avoided, start the inside that the inside dyestuff of water pump extraction dyestuff case 1 got into rose box 14, the dyestuff that contains pressure pushes up valve plate 152 through valve plate 152, valve plate 152 extension spring 151 overturns, the dyestuff gets into the inside of dyestuff case 1 again through shunt tubes and circulation mouth 17 behind the filter screen 16, the device can filter the batting in the dyestuff and collect, it is on weaving cloth to have avoided attaching to, influence later stage machining efficiency and finished product quality, can drive rivers disturbance weaving cloth simultaneously, dyeing efficiency has further been guaranteed.

As a specific technical scheme of this embodiment, one side of dye box 1 inner wall is provided with level sensor 19, the inside of clearance chamber 23 is provided with level sensor two 26, be connected through first fixed plate 203 between heating cabinet 2 and the dye box 1, the output of conveying motor 181 passes through the belt and is connected with one of them warming mill 21 transmission, and level sensor one 19 and level sensor two 26 are the inside biggest liquid level of dye box 1 and clearance chamber 23, have avoided the inside water level of clearance chamber 23 to diffuse to regulating block 274 and crowded water board 28 department, and the inside liquid level of dye box 1 satisfies to roll cloth roller 18 department.

As a specific technical solution of this embodiment, a gear box 201 is disposed on one side of the heating box 2, one end of each of the two heating rollers 21 extends into the gear box 201 and is provided with gears engaged with each other, so as to realize the relative rotation of the two heating rollers 21, at least one heating cavity 22 is disposed in the heating roller 21, the heating element is disposed in the heating cavity 22, and the gear box 201 is disposed to shield the gear mounted at one end of the heating roller 21, thereby ensuring the appearance and integrity of the device.

As a specific technical solution of this embodiment, the number of the water squeezing plates 28 is not less than one, and two revolving rollers 204 for bending and guiding the first cleaning conveyor belt 24 and the second cleaning conveyor belt 25 are further disposed inside the cleaning cavity 23, referring to fig. 3, 6, and 7, the arrangement of the revolving rollers 204 effectively avoids the first cleaning conveyor belt 24 and the second cleaning conveyor belt 25 from interfering, and the layout is more reasonable.

As a specific technical solution of this embodiment, two ends of the movable plate 275 respectively penetrate through two sides of the heating box 2, a rubber pad is disposed at a joint between the heating box 2 and the movable plate 275, at least one movable groove 2751 is disposed at the top of the movable plate 275, opposite surfaces of the first abutting block 276 and the second abutting block 277 are both disposed in an inclined manner, a movable hole 273 for the movable plate 275 to penetrate through is disposed in each of two sides of the movable frame 272, the abutting plate 294 is pressed to control the ascending, the pressing plate drives the insertion rod 292 to compress the compression spring 293, the insertion rod 292 is separated from the inside of the movable groove 2751, the movable plate 275 is pushed or pulled, the first abutting block 276 and the second abutting block 277 are abutted or separated from each other, when the first abutting block 276 and the second abutting block 277 are abutted, the second abutting block 277 is pressed by the first abutting block 276 to ascend, the adjusting block 274 is driven to further extrude the first cleaning cotton 241, accumulated water in the first cleaning 241 is further extruded and discharged by the adjusting block 274, the movable hole 273 is conveniently disposed, the movable frame 275 descends, and the appearance of the heating box 2 is ensured, and the sealing device is additionally disposed.

As a specific technical solution of this embodiment, the positioning mechanism 29 includes a fixed rod 291 fixedly disposed on one side of an inner wall of the heating chamber 22, an insertion rod 292 having one end extending into one of the movable grooves 2751 is movably disposed inside the fixed rod 291, a support plate is fixedly disposed on a surface of the insertion rod 292, a pressure spring 293 is disposed on a top of the support plate, a pressure plate 294 is disposed on a top of the insertion rod 292, a control rod 295 having one end extending to a bottom of the pressure plate 294 is hinged to a top of the fixed rod 291, another end of the control rod 295 penetrates one side of the heating chamber 2, a rubber pad is disposed at a joint of the heating chamber 2 and the control rod 295, the insertion rod 292 is configured to mainly position the movable plate 275, the positioning mechanism 29 may be disposed on either side of the inner wall of the heating chamber 22 and mainly avoid the transmission belt, referring to fig. 2, when the transmission belt of the first conveying roller 242 and the second conveying roller 252 in one of the cleaning chambers 23 is disposed on a left side of the heating chamber 2, the first conveying roller 242 and the second conveying roller 252 in the other cleaning chamber 23 is disposed on a right side of the heating chamber 2, so that the transmission belt is not able to be rubbed against the movable plate 275 and the movable plate 295.

A printing and dyeing method of printing and dyeing equipment based on a textile printing and dyeing low-temperature pretreatment biological enzyme technology comprises the following steps:

s1, preparation work, namely sequentially enabling textile cloth to be processed to pass through a guide roller 11, a cloth rolling roller 18 and heating rollers 21 through a guide tool, adding dye into a dye box 1, adding clear water into the two cleaning cavities 23, starting a conveying motor 181 to drive the cloth rolling roller 18 to rotate to convey the textile cloth after dip dyeing, pressing the dye into the textile cloth, and simultaneously driving the two heating rollers 21 to convey the textile cloth continuously by the conveying motor 181;

s2, drying the textile cloth, and starting a heating element inside the heating roller 21 to heat and dry the textile cloth;

s3, cleaning the heating roller 21, starting the driving motor 202 to drive the first conveying roller 242 and the second conveying roller 252 to rotate, driving the first cleaning conveying belt 24 to rotate by the first conveying roller 242, cleaning the dye on the surface of the heating roller 21 by the first cleaning cotton 241 with high wettability, driving the second cleaning conveying belt 25 to rotate by the second conveying roller 252, driving the second dry cleaning cotton 251 to clean the heating roller 21 cleaned by the first cleaning cotton 241 by the second cleaning conveying belt 25 again, and enabling the surface of the heating roller 21 to be dried quickly;

s4, adjusting the wettability of the cleaning cotton I241, pressing and controlling the abutting pressure plate 294 to ascend, driving the inserted rod 292 to compress the pressure spring 293 by the pressure plate 294, separating the inserted rod 292 from the inside of the movable groove 2751, pushing or pulling the movable plate 275 to enable the abutting block I276 to abut against or be away from the abutting block II 277, when the abutting block I276 abuts against the abutting block II 277, the abutting block II 277 is extruded and ascended by the abutting block I276 to drive the adjusting block 274 to further extrude the cleaning cotton I241, and accumulated water in the cleaning cotton I241 is further extruded and discharged by the adjusting block 274 when the cleaning cotton I241 rotates;

the cleaning cotton I241 mainly has the function of cleaning the dye on the surface of the heating roller 21, so the wettability is higher than that of the cleaning cotton II 251, the cleaning cotton II 251 mainly has the function of wiping the cleaned heating roller 21, and the heating roller 21 can be used after rotating for one circle by matching with the heating roller 21 with a heating element inside, so the wettability of the textile fabric cannot be increased;

s5, dye is filtered, a water pump is started to pump dye in the dye box 1 into the filter box 14, the dye with pressure pushes the valve plate 152 open through the valve plate 152, the valve plate 152 stretches the spring 151 to turn over, the dye enters the dye box 1 again through the shunt pipe and the circulation port 17 after passing through the filter screen 16, when the water pump stops, the valve plate 152 loses pressure and is pulled by the spring 151 to be automatically closed, so that flock intercepted on the filter screen 16 cannot enter the dye box 1 again, and after the top cover 141 is detached, the filter screen 16 can be taken down and cleaned.

In summary, according to the printing and dyeing equipment based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology and the printing and dyeing method thereof, the heating roller 21 is cleaned through the cleaning cotton I241 with high wettability by arranging the dye box 1 and the heating box 2, so that the dye attached to the heating roller 21 is effectively washed away, the washed heating roller 21 is wiped through the cleaning cotton II 251 extruded with moisture, and meanwhile, secondary cleaning is carried out, so that the heating roller 21 can be put into use after rotating for one circle, the surface does not contain moisture, and the heating efficiency of textile cloth is ensured.

It should be noted that, in this document, terms such as "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. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 (8)

1. A printing and dyeing equipment based on textile printing and dyeing low-temperature pretreatment bio-enzyme technology is characterized by comprising:

the dyeing box comprises a dyeing box (1) and a dyeing machine, wherein the dyeing box (1) is used for pad dyeing of textile cloth, a guide roller (11) used for guiding the textile cloth is arranged in the dyeing box (1), a water pump and a filter screen (16) used for circularly filtering dyes are arranged on one side of the dyeing box (1), a pad dyeing roller (18) used for pad dyeing of the textile cloth after dip dyeing is arranged in the dyeing box (1), and a conveying motor (181) used for driving the pad dyeing roller (18) is arranged on one side of the dyeing box (1);

the heating box (2) is used for heating and conveying the pad-dyed woven cloth, the heating box (2) is arranged on one side of the dyeing box (1), at least two heating rollers (21) are arranged inside the heating box (2), and at least one heating element is arranged inside each heating roller (21);

at least two cleaning cavities (23) are formed in the heating box (2), and a first cleaning conveyor belt (24) and a second cleaning conveyor belt (25) are sequentially arranged in each cleaning cavity (23);

the surface of the first cleaning conveyor belt (24) is provided with a first cleaning cotton (241), the surface of the first cleaning cotton (241) is attached to the surface of one of the heating rollers (21), at least one conveying roller (242) which is rotatably arranged in the cleaning cavity (23) is sleeved in the first cleaning conveyor belt (24), and a first cleaning brush (243) for cleaning the first cleaning cotton (241) is arranged in the cleaning cavity (23);

a second cleaning cotton (251) is arranged on the surface of the second cleaning conveyor belt (25), the surface of the second cleaning cotton (251) is attached to the surface of one heating roller (21), at least one second conveying roller (252) which is rotatably arranged in the cleaning cavity (23) is sleeved in the second cleaning conveyor belt (25), and a second cleaning brush (253) for cleaning the second cleaning cotton (251) is arranged in the cleaning cavity (23);

two sides of the heating box (2) are respectively provided with a driving motor (202) for rotating the first conveying roller (242) and the second conveying roller (252), and an adjusting mechanism (27) for controlling the wettability of the first cleaning cotton (241) is also arranged in the cleaning cavity (23);

the adjusting mechanism (27) comprises a second fixing plate (271) arranged in the cleaning cavity (23), a movable frame (272) is movably sleeved in the second fixing plate (271), an adjusting block (274) with one end abutting against the first cleaning cotton (241) is arranged in the movable frame (272), a movable plate (275) is movably arranged on the second fixing plate (271), a first abutting block (276) is arranged on the movable plate (275), a second abutting block (277) abutting against the first abutting block (276) is arranged in the movable frame (272), and the movable plate (275) is moved to enable the first abutting block (276) to abut against or be away from the second abutting block (277), so that the abutting strength of the adjusting block (274) against the first cleaning cotton (241) is controlled;

a water squeezing plate (28) for controlling the wettability of the second cleaning cotton (251) is arranged in the cleaning cavity (23);

a positioning mechanism (29) used for locking the movable plate (275) is arranged on one side of the inner wall of the cleaning cavity (23);

the positioning mechanism (29) comprises a fixed rod (291) fixedly arranged on one side of the inner wall of the heating cavity (22), an insertion rod (292) with one end extending into one of the movable grooves (2751) is movably arranged in the fixed rod (291), a support plate is fixedly arranged on the surface of the insertion rod (292), and a pressure spring (293) is arranged at the top of the support plate;

a pressing plate (294) is arranged at the top of the inserting rod (292), a control rod (295) with one end extending to the bottom of the pressing plate (294) is hinged to the top of the fixing rod (291), the other end of the control rod (295) penetrates through one side of the heating box (2), and a rubber pad is arranged at the joint of the heating box (2) and the control rod (295);

the both ends of fly leaf (275) run through the both sides to heating cabinet (2) respectively, the junction of heating cabinet (2) and fly leaf (275) is provided with the rubber pad, movable groove (2751) that quantity is no less than one are seted up at the top of fly leaf (275), the opposite face of conflict piece one (276) and conflict piece two (277) all is the slope setting, activity hole (273) that supply fly leaf (275) to wear to establish are all seted up to the inside of activity frame (272) both sides.

2. The printing and dyeing equipment based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology as claimed in claim 1, characterized in that: the dyeing box is characterized in that one side of the inner wall of the dyeing box (1) is provided with a pump water gap (12) and a circulation port (17) which is positioned above the pump water gap (12), the number of the circulation port (17) is not less than one, the number of the guide rollers (11) is not less than three, and two of the guide rollers (11) are horizontally arranged, and the circulation port (17) is positioned between the two guide rollers (11) which are horizontally arranged.

3. The printing and dyeing equipment based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology as claimed in claim 1, characterized in that: one side of dye box (1) is provided with pump box (13), the water pump sets up and is linked together in the input of the inside of pump box (13) and water pump and pump water mouth (12), be linked together through fixed pipe between the output of water pump and rose box (14), the top of rose box (14) is provided with top cap (141), be provided with shunt tubes and shunt tubes on rose box (14) and keep away from the one end of rose box (14) and be linked together with circulation mouth (17).

4. The printing and dyeing equipment based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology as claimed in claim 3, characterized in that: the inside of fixed pipe is provided with bracing piece (15), the top of bracing piece (15) is provided with valve plate (152) through spring (151), the articulated department that just valve plate (152) and rose box (14) articulated and the bottom surface of the one end of valve plate (152) and rose box (14) inner wall still is provided with sealed the pad, the bottom of top cap (141) is provided with branch, filter screen (16) set up in the bottom of branch.

5. The printing and dyeing equipment based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology as claimed in claim 1, characterized in that: one side of dye box (1) inner wall is provided with level sensor (19), the inside in clearance chamber (23) is provided with level sensor two (26), be connected through first fixed plate (203) between heating cabinet (2) and dye box (1), the output of conveying motor (181) pass through the belt with one of them warming mill (21) transmission is connected.

6. The printing and dyeing equipment based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology as claimed in claim 1, characterized in that: one side of heating cabinet (2) is provided with gear box (201), two the one end of warming mill roller (21) all extends to the inside of gear box (201) and is provided with intermeshing's gear to realize two the relative rotation of warming mill roller (21), heating chamber (22) that quantity is no less than one are seted up to the inside of warming mill roller (21), heating element sets up in the inside of heating chamber (22).

7. The printing and dyeing equipment based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology as claimed in claim 1, characterized in that: the number of the water squeezing plates (28) is not less than one, and two turnover rollers (204) which are used for bending and guiding the first cleaning conveying belt (24) and the second cleaning conveying belt (25) are further arranged in the cleaning cavity (23).

8. The printing and dyeing method based on the textile printing and dyeing low-temperature pretreatment bio-enzyme technology printing and dyeing equipment of claim 4 is characterized by comprising the following steps:

s1, preparing, namely sequentially enabling woven cloth to be processed to pass through a guide roller (11), a cloth rolling roller (18) and heating rollers (21) through a guide tool, adding dye into the dye box (1), adding clear water into the two cleaning cavities (23), starting a conveying motor (181) to drive the cloth rolling roller (18) to rotate to convey the dip-dyed woven cloth, pressing the dye into the woven cloth, and simultaneously driving the two heating rollers (21) to convey the woven cloth continuously by the conveying motor (181);

s2, drying the textile cloth, and starting a heating element inside the heating roller (21) to heat and dry the textile cloth;

s3, cleaning the heating roller (21), starting a driving motor (202) to drive a first conveying roller (242) and a second conveying roller (252) to rotate, driving a first cleaning conveying belt (24) to rotate by the first conveying roller (242), cleaning the dye on the surface of the heating roller (21) by a first cleaning cotton (241) with high wettability, driving a second cleaning conveying belt (25) to rotate by the second conveying roller (252), driving a second drier cleaning cotton (251) by the second cleaning conveying belt (25) to clean the heating roller (21) cleaned by the first cleaning cotton (241) again, and rapidly drying the surface of the heating roller (21);

s4, adjusting the wettability of the first cleaning cotton (241), pressing and controlling the abutting pressing plate (294) to ascend, driving the inserting rod (292) to compress the compression spring (293) by the pressing plate (294), and enabling the inserting rod (292) to be separated from the inside of the movable groove (2751), so that the movable plate (275) can be pushed or pulled, the first abutting block (276) and the second abutting block (277) are abutted or mutually separated, when the first abutting block (276) abuts against the second abutting block (277), the second abutting block (277) is extruded and ascended by the first abutting block (276), the adjusting block (274) is driven to further extrude the first cleaning cotton (241), and accumulated water in the first cleaning cotton (241) is further extruded and discharged by the adjusting block (274) when the first cleaning cotton (241) rotates; s5, filtering the dye, starting a water pump to pump the dye in the dye box (1) into the filter box (14), ejecting the pressure-containing dye through the valve plate (152) to open the valve plate (152), and enabling the dye to reenter the dye box (1) through the shunt pipe and the circulation port (17) after passing through the filter screen (16).

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