CN114108290A - Cloth printing and dyeing equipment and printing and dyeing process thereof - Google Patents

Abstract

The invention belongs to the technical field of printing and dyeing, and particularly relates to cloth printing and dyeing equipment and a printing and dyeing process thereof.

Description

Cloth printing and dyeing equipment and printing and dyeing process thereof

Technical Field

The invention belongs to the technical field of printing and dyeing, and particularly relates to cloth printing and dyeing equipment and a printing and dyeing process thereof.

Background

Along with the improvement of the life quality of people, people pay more and more attention to the attractiveness of clothes. In order to meet the production of cloth with various colors and patterns, a cloth printing and dyeing process is provided, and the cloth obtained after printing and dyeing has various colors and patterns, so that the attractiveness of clothes or other cloth living goods or artware is effectively improved. The quality of printing and dyeing directly affects the appearance of the fabric, and therefore, the dyeing process of the fabric is strictly controlled. There are many factors that affect the dyeing effect, mainly including the temperature, concentration, time, etc. of the dyeing solution.

The prior cloth printing and dyeing equipment has the following problems;

firstly, impurities on the cloth are not cleaned completely, and the printing and dyeing effect is influenced;

the printing and dyeing patterns are deformed due to no dehydration and drying after cleaning;

the printing and dyeing paint is not uniform, so that the colors are different;

fourthly, drying and shaping are not carried out in time after printing and dyeing, and storage of cloth is affected.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a cloth printing and dyeing device and a printing and dyeing process thereof, which can remove impurities and fuzz on cloth and reduce the influence on the cloth printing and dyeing effect; the cloth is timely dehydrated and dried after being cleaned, so that the generation of watermarks on the cloth is prevented; the cloth is firstly flattened and then is evenly printed and dyed by the coating, which is beneficial to the even printing and dyeing color and the clear pattern; the cloth is straightened and dried to obtain the coating, so that the storage of the finished cloth is facilitated.

The purpose of the invention can be realized by the following technical scheme: a cloth printing and dyeing device and a printing and dyeing process thereof comprise the following steps:

s1, feeding, wherein the cloth rotates to enter the processing box;

s2, removing impurities, namely, adhering and cleaning dust and impurities on the cloth;

s3: singeing, namely, scalding and removing fuzz on the cloth, and absorbing and recovering the fuzz;

s4: cleaning, namely cleaning and wiping the cloth with warm water;

s5: dewatering, namely heating and drying the cloth and absorbing moisture;

s6: flattening, namely extruding, sliding and flattening the cloth to two sides;

s7, printing and dyeing, namely, printing and dyeing the required patterns on the upper end of the cloth in a rotating manner;

s8: air drying, namely heating and air drying the patterns on the cloth;

the steps S1-S8 are completed by matching cloth printing and dyeing equipment, the cloth printing and dyeing equipment comprises a processing box, an impurity removing component is arranged below one end inside the processing box and used for removing dust and impurities from cloth, an ironing component is arranged on the rear side of the impurity removing component and used for ironing and absorbing impurities from the cloth, a cleaning component is arranged in the direction of the ironing component far away from the impurity removing component and used for cleaning the cloth, the cleaning component is arranged in the direction of the ironing component far away from the ironing component and used for squeezing, dehydrating and air-drying the cloth, a flattening component is arranged above the dehydrating component and used for flattening the cloth, the flattening component is arranged in the middle direction of the processing box and used for printing and dyeing the cloth according to patterns, and the direction of the flattening component far away from the dyeing component is used for drying and shaping the cloth.

Preferably, the processing case sets firmly two first fixed blocks to the outside both sides of edulcoration part direction, it is equipped with the feeding axis of rotation to connect to rotate between two first fixed blocks, the cover is equipped with feed sleeve on the outer periphery of feeding axis of rotation, feed sleeve periphery is around having the cloth of waiting to process, first fixed block top is equipped with two second fixed blocks, two second fixed blocks are fixed outside the processing case, it is equipped with the storage axis of rotation to rotate the connection between two second fixed blocks, the storage axis of rotation periphery is around having the finished product cloth, the processing case slides to feeding axis of rotation one end and is equipped with the feeding slide, the processing case slides to storage axis of rotation direction one end and is equipped with ejection of compact slide.

Preferably, the edulcoration part rotates the post including the edulcoration, the edulcoration rotates the post and is located the processing incasement portion to feeding axis of rotation direction, both ends are rotated and are connected on the processing case about waiting to process the cloth for two edulcorations rotation posts, the inside blowdown chamber that is equipped with of edulcoration rotation post, the even slip of edulcoration rotation post circumferencial direction array is equipped with a plurality of miscellaneous pieces that remove, it is equipped with the edulcoration axis of rotation to rotate in the edulcoration piece, edulcoration axis of rotation one side has set firmly in the edulcoration piece and scrapes the piece, the edulcoration piece is inside to being equipped with to scrape piece one side and is stained with the module axis of rotation, be stained with module axis of rotation and edulcoration axis of rotation linkage connection, be equipped with the edulcoration chamber in the edulcoration piece, the edulcoration chamber is connected with the blowdown chamber.

Preferably, the scald hair part rotates the post including the scald hair, both ends about the scald hair rotates the post to be located treating the processing cloth, the scald hair rotates the post and is connected at the processing incasement internal rotation, scald hair rotates the post circumferencial direction and evenly sets firmly a plurality of motors, the motor is kept away from scald hair and is rotated post one end and set firmly flexible post, flexible post rotates the post internal rotation at the scald hair and connects, flexible post is kept away from motor one end and has set firmly the ironing board, the ironing board rotates the post sliding connection at the scald hair, scald hair rotates the post and evenly has set firmly a plurality of brush pieces at the circumferencial direction, the brush piece rotates the post direction to the scald hair and has set firmly the air pump, the air pump is connected with brush piece both sides, be equipped with heat conduction chamber in the ironing board, it is equipped with the heating passageway to connect between heat conduction chamber and the air pump.

Preferably, the cleaning part comprises a cleaning box, the cleaning box is located at the middle lower end inside the processing box, a cleaning rotating column is arranged in the cleaning box, a water cavity is arranged in the cleaning rotating column, a plurality of cleaning rotating shafts are arranged in the cleaning rotating column in a rotating mode in the circumferential direction, a plurality of water suction valves are arranged in the cleaning rotating column in a sliding mode in the circumferential direction, the water suction valves are connected with the water cavity, and a connecting channel is arranged between the water cavity and the periphery of the cleaning rotating shafts in a connecting mode.

Preferably, the dehydration part rotates the post including the dehydration, the dehydration rotates the post and is located the inside feeding slide one end of keeping away from of processing incasement, the dehydration rotates the post and is connected at the processing incasement internal rotation, the dehydration is equipped with the heating chamber in rotating the post, the dehydration rotates the post circumferencial direction and rotates and be equipped with a plurality of recovery rotating groups, it comprises axis of rotation and rotation flexible post to retrieve the rotating group, the slip of dehydration rotation post circumferencial direction is equipped with a plurality of flexible stripper plates, be connected with the heating chamber in the flexible stripper plate, it is connected with the heating chamber to retrieve rotating group periphery, the dehydration rotates the post and keeps away from the rotation of cleaning element direction and is equipped with the heating and rotates the post, be equipped with inlet channel in the heating rotation post, inlet channel periphery is equipped with heat conduction passageway in the heating rotation post, heat conduction passageway is connected with inlet channel.

Preferably, the flattening part comprises a flattening rotating column, the flattening rotating column is located above the heating rotating column, the flattening rotating column is connected in the processing box in a rotating mode, a suction cavity is formed in the flattening rotating column, a plurality of sliding blocks are arranged in the flattening rotating column in a sliding mode in the circumferential direction, the sliding blocks are far away from the suction cavity and move and are fixedly provided with connecting blocks, one ends of the connecting blocks, far away from the sliding blocks, are fixedly provided with suction blocks, the suction blocks and the connecting blocks slide in the flattening rotating column, suction valves are arranged in the suction blocks in a sliding mode, two linkage shafts are arranged on two sides of the suction valves in a sliding mode in the suction blocks, the suction valves are connected with the linkage shafts in a linkage mode, and the linkage shafts are connected with the linkage blocks in a linkage mode.

Preferably, the printing and dyeing part includes the fixed station, the fixed station is located the processing incasement portion, the fixed station top is equipped with three printing and dyeing axis of rotation at the processing incasement internal rotation, the cover is equipped with the printing and dyeing sleeve on the outer periphery of printing and dyeing axis of rotation, the cover is equipped with printing and dyeing pattern ring on the outer periphery of printing and dyeing sleeve, printing and dyeing axis of rotation both sides are equipped with two dyestuff chambeies in the processing incasement, be equipped with feedstock channel in the printing and dyeing axis of rotation, printing and dyeing axis of rotation circumferencial direction slides and is equipped with a plurality of flexible sliding blocks, feedstock channel removes to be kept away from to flexible sliding block and sets firmly the printing and dyeing piece, the printing and dyeing piece slides in the printing and dyeing sleeve, the printing and dyeing piece is kept away from flexible sliding block and is removed the rotation and is equipped with a plurality of even axis of rotation, even axis of rotation one side is equipped with in the printing and dyeing piece, be equipped with the feeding chamber in the piece, the printing and dyeing chamber is connected with feedstock channel.

Preferably, the drying component comprises a drying rotating shaft, the drying rotating shaft is connected with the processing box in a rotating mode, a drying sleeve is sleeved on the outer circumferential surface of the drying rotating shaft, a plurality of sliding flattening blocks are arranged on the outer circumferential surface of the drying sleeve in a sliding mode, a plurality of rotating drying columns are arranged on the outer circumferential surface of the drying sleeve in a rotating mode, a high-temperature cavity is arranged in the drying sleeve and is connected with the inner portions of the sliding flattening blocks, the rotating drying columns are connected with the high-temperature cavity, and a plurality of heating balls are arranged in the high-temperature cavity in a rotating mode.

Has the advantages that:

1. through edulcoration part and the setting of scalding the hair part, get rid of impurity and the fluff on the cloth, reduce the influence to cloth printing and dyeing effect.

2. Through the setting of cleaning component and dehydration part, in time carry out dehydration stoving after the cloth sanitization, prevent the production of watermark on the cloth.

3. Through the arrangement of the flattening component and the printing and dyeing component, the cloth is firstly flattened and then is uniformly printed and dyed by the coating, so that the uniform printing and dyeing color and the clear pattern are facilitated.

4. Through the setting of stoving part, flare-out stoving coating is carried out to the cloth, is favorable to the storage of finished product cloth.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a process flow diagram of the present invention.

Fig. 2 is a schematic isometric view of the present invention.

Fig. 3 is a schematic structural view in front view of the present invention.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

Fig. 5 is a schematic view of a portion C in fig. 4.

Fig. 6 is a schematic view of a portion D in fig. 4.

Fig. 7 is a schematic view of a portion at E in fig. 4.

Fig. 8 is a schematic view of a portion at F in fig. 4.

Fig. 9 is a schematic top view of the present invention.

Fig. 10 is a schematic cross-sectional view at B-B in fig. 9.

Fig. 11 is a schematic view of a portion at G in fig. 10.

In the figure, a processing box 10, an impurity removing part 11, a scalding part 12, a cleaning part 13, a dewatering part 14, a flattening part 15, a printing and dyeing part 16, a drying part 17, a first fixing block 18, a feeding rotating shaft 19, a feeding sleeve 20, a cloth to be processed 21, an impurity removing rotating column 22, a pollution discharge cavity 23, an impurity removing block 24, an impurity removing rotating shaft 25, a scraping block 26, a dipping mold rotating shaft 27, an impurity removing cavity 28, a scalding rotating column 29, a motor 30, a telescopic column 31, a scalding plate 32, a brushing block 33, an air pump 34, a heat conducting cavity 35, a heating channel 36, a cleaning rotating column 37, a water cavity 38, a cleaning rotating shaft 39, a water suction valve 40, a connecting channel 41, a cleaning box 42, a dehydrating rotating column 43, a heating cavity 44, a recycling rotating group 45, a telescopic extrusion plate 46, a heating rotating column 47, an air inlet channel 48, a heat conducting channel 49, a flattening rotating column 50, a suction cavity 51, a sliding block 52, a connecting block 53, a suction block 54, a flattening rotating column 16, a cleaning rotating group, a cleaning device, a cleaning, The device comprises a suction valve 55, a linkage shaft 56, a linkage block 57, a printing and dyeing rotating shaft 58, a printing and dyeing sleeve 59, a printing and dyeing pattern ring 60, a feeding channel 61, a dye cavity 62, a telescopic sliding block 63, a printing and dyeing block 64, a uniform rotating shaft 65, a leveling block 66, a feeding cavity 67, a fixed table 68, a drying rotating shaft 69, a drying sleeve 70, a sliding leveling block 71, a rotating drying column 72, a high-temperature cavity 73, a heating ball 74, a feeding sliding plate 75, a discharging sliding plate 76, a second fixed block 77, a storage rotating shaft 78 and finished cloth 79.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

With reference to fig. 1 to 11, a cloth printing and dyeing apparatus and a printing and dyeing process thereof include the following steps:

s1, feeding, wherein the cloth rotates to enter the processing box;

s2, removing impurities, namely, adhering and cleaning dust and impurities on the cloth;

s3: singeing, namely, scalding and removing fuzz on the cloth, and absorbing and recovering the fuzz;

s4: cleaning, namely cleaning and wiping the cloth with warm water;

s5: dewatering, namely heating and drying the cloth and absorbing moisture;

s6: flattening, namely extruding, sliding and flattening the cloth to two sides;

s7, printing and dyeing, namely, printing and dyeing the required patterns on the upper end of the cloth in a rotating manner;

s8: air drying, namely heating and air drying the patterns on the cloth;

the steps S1-S8 are completed by matching cloth printing and dyeing equipment, the cloth printing and dyeing equipment comprises a processing box 10, an impurity removing component 11 is arranged below one end inside the processing box 10 and used for removing dust and impurities from cloth, a scalding component 12 is arranged on the rear side of the impurity removing component 11 and used for scalding and absorbing impurities from the cloth, a cleaning component 13 is arranged in the direction, away from the impurity removing component 11, of the scalding component 12 and used for cleaning the cloth, a dewatering component 14 is arranged in the direction, away from the scalding component 12, of the cleaning component 13 and used for squeezing, dewatering and air drying the cloth, a flattening component 15 is arranged above the dewatering component 14 and used for flattening the cloth, a printing and dyeing component 16 is arranged in the middle direction of the processing box 10 and used for printing and dyeing the cloth according to patterns, and a drying component 17 is arranged in the direction, away from the flattening component 15, of the printing and dyeing component 16 and drying the cloth.

Further, referring to fig. 1-11, two first fixing blocks 18 are fixedly disposed on two sides of the processing box 10 outside the impurity removing component 11, a feeding rotating shaft 19 is rotatably connected between the two first fixing blocks 18, a feeding sleeve 20 is sleeved on the outer circumferential surface of the feeding rotating shaft 19, a cloth 21 to be processed is wound around the periphery of the feeding sleeve 20, two second fixing blocks 77 are disposed above the first fixing blocks 18, the two second fixing blocks 77 are fixed outside the processing box 10, a storage rotating shaft 78 is rotatably connected between the two second fixing blocks 77, a finished cloth 79 is wound around the periphery of the storage rotating shaft 78, a feeding sliding plate 75 is slidably disposed at one end of the processing box 10 facing the feeding rotating shaft 19, and a discharging sliding plate 76 is slidably disposed at one end of the processing box 10 facing the storage rotating shaft 78.

Further, with reference to fig. 1-11, edulcoration part 11 includes edulcoration rotation column 22, edulcoration rotation column 22 is located processing case 10 inside to 19 directions of feeding axis of rotation, two edulcoration rotation columns 22 are being treated processing cloth 21 both ends rotation and are being connected on processing case 10 about, edulcoration rotation column 22 is inside to be equipped with blowdown chamber 23, edulcoration rotation column 22 circumferencial direction array evenly slides and is equipped with a plurality of edulcoration pieces 24, edulcoration piece 24 internal rotation is equipped with edulcoration axis of rotation 25, edulcoration axis of rotation 25 one side has set firmly in edulcoration piece 24 and scrapes piece 26, edulcoration piece 24 is inside to scraping piece 26 one side rotation and being equipped with and be stained with mould axis of rotation 27, be stained with edulcoration axis of rotation 25 linkage connection, be equipped with edulcoration chamber 28 in the edulcoration piece 24, edulcoration chamber 28 is connected with blowdown chamber 23.

Further, referring to fig. 1 to 11, the scalding component 12 includes a scalding rotation column 29, the scalding rotation column 29 is located at the upper end and the lower end of the cloth 21 to be processed, the scalding rotation column 29 is rotatably connected in the processing box 10, a plurality of motors 30 are uniformly and fixedly arranged in the circumferential direction of the scalding rotation column 29, a telescopic column 31 is fixedly arranged at one end of each motor 30 far from the scalding rotation column 29, the telescopic column 31 is rotatably connected in the scalding rotation column 29, a scalding plate 32 is fixedly arranged at one end of each telescopic column 31 far from the motor 30, the scalding plate 32 is slidably connected in the scalding rotation column 29, a plurality of brush blocks 33 are uniformly and fixedly arranged in the circumferential direction of the scalding rotation column 29, an air pump 34 is fixedly arranged in the direction of the scalding rotation column 29, the air pump 34 is connected with two sides of the brush blocks 33, a heat conduction cavity 35 is arranged in the scalding plate 32, and a heating channel 36 is connected between the heat conduction cavity 35 and the air pump 34.

Further, with reference to fig. 1 to 11, the cleaning component 13 includes a cleaning box 42, the cleaning box 42 is located at the middle lower end inside the processing box 10, a cleaning rotating column 37 is rotatably disposed in the cleaning box 42, a water chamber 38 is disposed in the cleaning rotating column 37, a plurality of cleaning rotating shafts 39 are rotatably disposed in the cleaning rotating column 37 in the circumferential direction, a plurality of water suction valves 40 are slidably disposed in the cleaning rotating column 37 in the circumferential direction, the water suction valves 40 are connected to the water chamber 38, and a connecting channel 41 is disposed between the water chamber 38 and the cleaning rotating shafts 39 in the peripheral connection.

Further, with reference to fig. 1 to 11, the dehydration component 14 includes a dehydration rotation column 43, the dehydration rotation column 43 is located at one end of the processing box 10 far away from the feeding sliding plate 75, the dehydration rotation column 43 is rotatably connected in the processing box 10, a heating cavity 44 is arranged in the dehydration rotation column 43, the dehydration rotation column 43 rotates in the circumferential direction and is provided with a plurality of recovery rotation groups 45, each recovery rotation group 45 is composed of a rotation shaft and a rotation telescopic column, the dehydration rotation column 43 slides in the circumferential direction and is provided with a plurality of telescopic extrusion plates 46, the telescopic extrusion plates 46 are connected with the heating cavity 44, the periphery of the recovery rotation group 45 is connected with the heating cavity 44, the dehydration rotation column 43 rotates away from the cleaning component 13 and is provided with a heating rotation column 47, an air inlet channel 48 is arranged in the heating rotation column 47, the periphery of the air inlet channel 48 is provided with a heat conduction channel 49 in the heating rotation column 47, and the heat conduction channel 49 is connected with the air inlet channel 48.

Further, with reference to fig. 1 to 11, the flattening component 15 includes a flattening rotating column 50, the flattening rotating column 50 is located above the heating rotating column 47, the flattening rotating column 50 is rotatably connected in the processing box 10, a suction cavity 51 is provided in the flattening rotating column 50, a plurality of sliding blocks 52 are slidably provided in the flattening rotating column 50 in the circumferential direction, a connecting block 53 is fixedly provided in the sliding block 52 far from the suction cavity 51 in a movable manner, a suction block 54 is fixedly provided at one end of the connecting block 53 far from the sliding block 52, the suction block 54 and the connecting block 53 slide in the flattening rotating column 50, a suction valve 55 is slidably provided in the suction block 54, two linkage shafts 56 are rotatably provided in the suction block 54 at two sides of the suction valve 55, two linkage blocks 57 are slidably provided in the suction block 54 at two sides of the two linkage shafts 56, the suction valve 55 is linked with the linkage shafts 56, and the linkage shafts 56 are linked with the linkage blocks 57.

Further, referring to fig. 1 to 11, the printing and dyeing component 16 includes a fixing table 68, the fixing table 68 is located inside the processing box 10, three printing and dyeing rotating shafts 58 are rotatably disposed above the fixing table 68 in the processing box 10, a printing and dyeing sleeve 59 is sleeved on an outer circumferential surface of the printing and dyeing rotating shafts 58, a printing and dyeing pattern ring 60 is sleeved on an outer circumferential surface of the printing and dyeing sleeve 59, two dye cavities 62 are disposed in the processing box 10 at two sides of the printing and dyeing rotating shafts 58, a feeding passage 61 is disposed in the printing and dyeing rotating shafts 58, the feeding passage 61 is connected with the dye cavities 62, a plurality of telescopic sliding blocks 63 are slidably disposed in a circumferential direction of the printing and dyeing rotating shafts 58, a printing and dyeing block 64 is fixedly disposed in a manner of moving away from the feeding passage 61 by the telescopic sliding blocks 63, the printing and dyeing block 64 and the telescopic sliding blocks 63 slide in the printing and dyeing sleeve 59, a plurality of uniform rotating shafts 65 are rotatably disposed in a manner of sliding a scraping block 66 in the printing and dyeing block 64 at one side of the uniform rotating shafts 65, a feeding cavity 67 is arranged in the printing and dyeing block 64, and the feeding cavity 67 is connected with the feeding channel 61.

Further, referring to fig. 1 to 11, the drying component 17 includes a drying rotating shaft 69, the drying rotating shaft 69 is rotatably connected in the processing box 10, a drying sleeve 70 is sleeved on an outer circumferential surface of the drying rotating shaft 69, a plurality of sliding flattening blocks 71 are slidably disposed on the outer circumferential surface of the drying sleeve 70, a plurality of rotating drying columns 72 are rotatably disposed on the outer circumferential surface of the drying sleeve 70, a high temperature cavity 73 is disposed in the drying sleeve 70, the high temperature cavity 73 is connected with an inner portion of the sliding flattening blocks 71, the rotating drying columns 72 are connected with the high temperature cavity 73, and a plurality of heating balls 74 are rotatably disposed in the high temperature cavity 73.

Principle of operation

And S1, feeding, wherein the feeding sliding plate 75 slides open in the processing box 10, and the feeding rotating shaft 19 rotates to drive the cloth 21 to be processed to be conveyed into the processing box 10 for processing through the rotation of the feeding sleeve 20.

S2, removing impurities, enabling the cloth 21 to be processed to enter between two impurity removing rotating columns 22, enabling the cloth 21 to be processed to move to drive an impurity removing rotating shaft 25 to rotate, enabling the impurity removing rotating shaft 25 to rotate to drive a dipping die rotating shaft 27 to rotate in a linkage mode, enabling the dipping die rotating shaft 27 to rotate to uniformly coat mucous membranes on the impurity removing rotating shaft 25, enabling the impurity removing rotating shaft 25 to rotate to drive the mucous membranes to dip dust and impurities on the cloth 21 to be processed into an impurity removing cavity 28, removing the impurities through a scraping block 26, and discharging the impurities in the impurity removing cavity 28 through a pollution discharging cavity 23.

S3: singeing, wait to process cloth 21 and enter into between two boiling hot hair rotation posts 29, flexible post 31 is flexible to be promoted and is scalded board 32 contact and wait to process cloth 21, heating channel 36 heating gas enters into heat conduction chamber 35 and carries out the heat conduction, motor 30 starts and rotates through flexible post 31 and drive ironing board 32 and rotate and scald the fluff on waiting to process cloth 21, boiling hot hair rotation post 29 rotates and drives brush piece 33 and rotate, brush piece 33 rotates and brushes the hair line from waiting to process cloth 21 down, air pump 34 starts and inhales the heating channel 36 in the hair line from brush piece 33 both sides and collects the recovery.

S4: the cleaning device comprises a cleaning rotating column 37, a cleaning rotating shaft 39, a water sucking valve 40, a connecting channel 41, a conveying shaft 39 and a cleaning rotating shaft 39, wherein the cleaning rotating column 37 is used for cleaning cloth 21 to be processed, the cloth 21 to be processed enters the cleaning rotating column 37 in a cleaning box 42, the cleaning rotating column 37 is used for conveying the water in the cleaning box 42 to the outside of the cleaning rotating shaft 39, the cleaning rotating shaft 39 is cleaned, and the cleaning rotating column 37 rotates to drive the water in the cleaning box 42 to flow to clean the cloth 21 to be processed.

S5: dehydration, treat that processing cloth 21 enters into between two dehydration rotation posts 43, flexible stripper plate 46 is flexible in dehydration rotation post 43 and is treated processing cloth 21 and carry out the extrusion dehydration, water is along dehydration rotation post 43 low current, retrieve and rotate 45 flexible rotations of group and retrieve water in heating chamber 44, heat the intracavity and heat the flow to flexible stripper plate 46 to water, it treats processing cloth 21 high temperature extrusion dehydration to slide flexible in dehydration rotation post 43 through flexible stripper plate 46, treat and enter into heating rotation post 47 lower extreme after the preliminary dehydration of processing cloth 21, heating rotation post 47 rotates and gets into gas through inlet channel 48, gas heating in the inlet channel 48 enters into heat conduction channel 49, rotate post 47 through the heating and rotate and treat processing cloth 21 and rotate the stoving.

S6: flattening, the cloth 21 to be processed moves upwards to enter between two flattening rotating columns 50, the suction cavity 51 sucks the cloth 21 to be processed through the suction valve 55, the sliding block 52 slides in the flattening rotating columns 50 and drives the suction block 54 to extrude the cloth 21 to be processed into the suction block 54 through the connecting block 53 in a sliding fit mode, the suction valve 55 drives the linkage shaft 56 to rotate, and the linkage shaft 56 rotates to drive the linkage block 57 to slide to clamp the cloth 21 to be processed and move towards two sides for flattening.

S7, printing and dyeing, wherein the cloth 21 to be processed is flattened and then enters between the printing and dyeing pattern ring 60 and the fixed platform 68, the dye in the dye cavity 62 enters the feeding cavity 67 through the feeding channel 61, the printing and dyeing block 64 is driven to contact with the printing and dyeing pattern ring 60 to move through sliding and stretching of the stretching sliding block 63, the uniform rotating shaft 65 rotates in the printing and dyeing block 64 to uniformly coat the dye on the cloth 21 to be processed through the printing and dyeing pattern ring 60, the excessive dye is scraped through the scraping block 66, and the cloth 21 to be processed is printed and dyed through a plurality of rotating dyes.

S8: air-dry, wait to process cloth 21 and enter into between two stoving sleeves 70, stoving axis of rotation 69 rotates and drives stoving sleeve 70 and rotate, stoving sleeve 70 rotates and drives rotation stoving post 72 and rotate, sliding flattening piece 71 passes through sliding flattening piece 71 and holds waiting to process cloth 21 and move the flare-out to both sides in sliding fit high temperature chamber 73 in stoving sleeve 70, heating ball 74 heats and rotates the coating on heat conduction stoving waiting to process cloth 21 through rotating stoving post 72, the printing and dyeing setting is accomplished, ejection of compact slide 76 slides in processing box 10 and opens, cover finished product cloth 79 on storage axis of rotation 78 and rotate the storage.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. A cloth printing and dyeing device and a printing and dyeing process thereof are characterized by comprising the following steps:

s1, feeding, wherein the cloth rotates to enter the processing box;

s2, removing impurities, namely, adhering and cleaning dust and impurities on the cloth;

s3: singeing, namely, scalding and removing fuzz on the cloth, and absorbing and recovering the fuzz;

s4: cleaning, namely cleaning and wiping the cloth with warm water;

s5: dewatering, namely heating and drying the cloth and absorbing moisture;

s6: flattening, namely extruding, sliding and flattening the cloth to two sides;

s7, printing and dyeing, namely, printing and dyeing the required patterns on the upper end of the cloth in a rotating manner;

s8: air drying, namely heating and air drying the patterns on the cloth;

the steps S1-S8 are completed by matching cloth printing and dyeing equipment, the cloth printing and dyeing equipment comprises a processing box (10), an impurity removing component (11) is arranged below one end inside the processing box (10) and used for removing dust and impurities from cloth, an ironing component (12) is arranged on the rear side of the impurity removing component (11) and used for ironing and absorbing impurities from the cloth, a cleaning component (13) is arranged in the direction, away from the impurity removing component (11), of the ironing component (12) and used for cleaning the cloth, a dewatering component (14) is arranged in the direction, away from the ironing component (12), of the cleaning component (13) and used for squeezing, dewatering and air drying the cloth, a flattening component (15) is arranged above the dewatering component (14) and used for flattening the cloth, a printing and dyeing component (16) is arranged in the middle direction of the processing box (10) and used for printing and dyeing the cloth according to patterns, and drying components (17) are arranged in the direction, away from the flattening component (15) of the printing and dyeing component (16) and dyeing component (17) and used for flattening the cloth And (5) drying and shaping.

2. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 1, characterized in that: two first fixing blocks (18) are fixedly arranged on the two sides of the processing box (10) towards the outside of the impurity removing part (11), a feeding rotating shaft (19) is connected and rotatably arranged between the two first fixed blocks (18), a feeding sleeve (20) is sleeved on the outer circumferential surface of the feeding rotating shaft (19), a cloth (21) to be processed is wound on the periphery of the feeding sleeve (20), two second fixed blocks (77) are arranged above the first fixed block (18), the two second fixing blocks (77) are fixed outside the processing box (10), a storage rotating shaft (78) is rotatably connected between the two second fixing blocks (77), finished cloth (79) is wound on the periphery of the storage rotating shaft (78), a feeding sliding plate (75) is arranged on one end of the processing box (10) towards the feeding rotating shaft (19) in a sliding mode, and a discharging sliding plate (76) is arranged at one end of the processing box (10) in the direction of the storage rotating shaft (78) in a sliding manner.

3. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 2, characterized in that: the edulcoration part (11) rotates post (22) including the edulcoration, the edulcoration rotates post (22) and is located processing case (10) inside to feeding axis of rotation (19) direction, two edulcorations rotate post (22) and rotate the connection on processing case (10) at both ends about waiting to process cloth (21), the edulcoration rotates post (22) inside and is equipped with blowdown chamber (23), edulcoration rotates post (22) circumferencial direction array and evenly slides and is equipped with a plurality of miscellaneous pieces of removing (24), it is equipped with edulcoration axis of rotation (25) to remove miscellaneous piece (24) internal rotation, edulcoration axis of rotation (25) one side has set firmly scraping piece (26) in removing miscellaneous piece (24), it is equipped with to scrape piece (26) one side and is stained with mould axis of rotation (27) to remove miscellaneous piece (24) inside, it is connected with edulcoration axis of rotation (25) linkage to be stained with mould axis of rotation (27) to be stained with, it is equipped with edulcoration chamber (28) in miscellaneous piece (24), the impurity removing cavity (28) is connected with the sewage discharging cavity (23).

4. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 3, characterized in that: the ironing component (12) comprises an ironing rotating column (29), the ironing rotating column (29) is located at the upper end and the lower end of a cloth (21) to be processed, the ironing rotating column (29) is rotationally connected in a processing box (10), a plurality of motors (30) are uniformly and fixedly arranged in the circumferential direction of the ironing rotating column (29), one ends, far away from the ironing rotating column (29), of the motors (30) are fixedly provided with telescopic columns (31), the telescopic columns (31) are rotationally connected in the ironing rotating column (29), one ends, far away from the motors (30), of the telescopic columns (31) are fixedly provided with ironing plates (32), the ironing plates (32) are slidably connected in the ironing rotating column (29), the ironing rotating column (29) is uniformly and fixedly provided with a plurality of brush blocks (33) in the circumferential direction, the brush blocks (33) are fixedly provided with air pumps (34) in the direction of the ironing rotating column (29), and the air pumps (34) are connected with two sides of the brush blocks (33), a heat conduction cavity (35) is arranged in the ironing plate (32), and a heating channel (36) is connected between the heat conduction cavity (35) and the air pump (34).

5. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 4, characterized in that: wash part (13) including wasing case (42), wash case (42) and be located processing case (10) inside middle lower extreme, it is equipped with to wash case (42) internal rotation and rotates post (37), it is equipped with water cavity (38) in rotation post (37) to wash, it is equipped with a plurality of rotation axis of washing (39) to wash to rotate post (37) circumferencial direction rotation, it slides and is equipped with a plurality of water suction valve (40) to wash rotation post (37) circumferencial direction, water suction valve (40) are connected with water cavity (38), water cavity (38) are connected with washing rotation axis (39) periphery and are equipped with interface channel (41).

6. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 5, characterized in that: the dehydration part (14) rotates post (43) including the dehydration, the dehydration rotates post (43) and is located processing case (10) inside and keeps away from feeding slide (75) one end, the dehydration rotates post (43) and is connected at processing case (10) internal rotation, the dehydration is equipped with in rotating post (43) heating chamber (44), dehydration rotates post (43) circumferencial direction and rotates and is equipped with a plurality of recovery rotating group (45), it comprises axis of rotation and rotation flexible post to retrieve rotating group (45), dehydration rotates post (43) circumferencial direction and slides and is equipped with a plurality of flexible stripper plates (46), be connected with heating chamber (44) in flexible stripper plate (46), it is connected with heating chamber (44) to retrieve rotating group (45) periphery, dehydration rotates post (43) and keeps away from cleaning part (13) direction rotation and is equipped with heating rotation post (47), be equipped with inlet channel (48) in the heating rotation post (47), and a heat conduction channel (49) is arranged in the heating rotating column (47) at the periphery of the air inlet channel (48), and the heat conduction channel (49) is connected with the air inlet channel (48).

7. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 6, characterized in that: the flattening component (15) comprises a flattening rotating column (50), the flattening rotating column (50) is located above a heating rotating column (47), the flattening rotating column (50) is connected in a rotating mode in the processing box (10), a suction cavity (51) is arranged in the flattening rotating column (50), a plurality of sliding blocks (52) are arranged in the flattening rotating column (50) in a sliding mode in the circumferential direction, the sliding blocks (52) are far away from the suction cavity (51) and are provided with connecting blocks (53) in a moving mode, one ends, far away from the sliding blocks (52), of the connecting blocks (53) are provided with suction blocks (54), the suction blocks (54) and the connecting blocks (53) slide in the flattening rotating column (50), suction valves (55) are arranged in the suction blocks (54) in a sliding mode, two linkage shafts (56) are arranged on two sides of the suction valves (55) in a rotating mode, two linkage blocks (57) are arranged on two sides of the suction blocks (54) in a sliding mode, the suction valve (55) is in linkage connection with a linkage shaft (56), and the linkage shaft (56) is in linkage connection with a linkage block (57).

8. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 7, characterized in that: the printing and dyeing component (16) comprises a fixed table (68), the fixed table (68) is located inside the processing box (10), three printing and dyeing rotating shafts (58) are arranged above the fixed table (68) in the processing box (10) in a rotating mode, a printing and dyeing sleeve (59) is sleeved on the outer circumferential surface of each printing and dyeing rotating shaft (58), a printing and dyeing pattern ring (60) is sleeved on the outer circumferential surface of each printing and dyeing sleeve (59), two dye cavities (62) are arranged on two sides of each printing and dyeing rotating shaft (58) in the processing box (10), a feeding channel (61) is arranged in each printing and dyeing rotating shaft (58), the feeding channel (61) is connected with each dye cavity (62), a plurality of telescopic sliding blocks (63) are arranged in the circumferential direction of each printing and dyeing rotating shaft (58) in a sliding mode, a printing and dyeing block (64) is fixedly arranged in a mode of moving away from each feeding channel (61), and dyeing blocks (64) and the telescopic sliding blocks (63) slide in the printing and dyeing sleeves (59), the printing and dyeing block (64) is far away from the telescopic sliding block (63) and moves and rotates to be provided with a plurality of uniform rotating shafts (65), one side of each uniform rotating shaft (65) slides in the printing and dyeing block (64) to be provided with a scraping block (66), a feeding cavity (67) is arranged in the printing and dyeing block (64), and the feeding cavity (67) is connected with the feeding channel (61).

9. The cloth printing and dyeing apparatus and the printing and dyeing process thereof according to claim 8, characterized in that: drying part (17) is including stoving axis of rotation (69), stoving axis of rotation (69) is connected at processing case (10) internal rotation, the cover is equipped with stoving sleeve (70) on the outer periphery of stoving axis of rotation (69), it is equipped with a plurality of flat pieces of slip (71) to slide on the outer periphery of stoving sleeve (70), it is equipped with a plurality of rotation stoving post (72) to rotate on the outer periphery of stoving sleeve (70), be equipped with high temperature chamber (73) in stoving sleeve (70), high temperature chamber (73) and the flat piece of slip exhibition (71) internal connection, it is connected with high temperature chamber (73) to rotate stoving post (72), high temperature chamber (73) internal rotation is equipped with a plurality of heating balls (74).

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