CN211994729U - Production equipment for digital ink-jet warp-printed hazy flower fabric - Google Patents

Abstract

The application discloses digital ink-jet warp printing hazy flower fabric production equipment, which comprises a plurality of warp splitting shafts, a splitting reed, an ink-jet printing device, a warp yarn piece drying device and a warp yarn piece reeling shaft, wherein the warp splitting shafts are used for releasing warp yarn pieces, the warp yarn piece reeling shaft is used for reeling the warp yarn pieces, the splitting reed is arranged between the warp splitting shafts and the warp yarn piece reeling shaft, the ink-jet printing device is arranged between the splitting reed and the warp yarn piece reeling shaft, and the warp yarn piece drying device is arranged between the ink-jet printing device and the warp yarn piece reeling shaft; the lease reed is used for dividing a plurality of warp sheets into an upper layer and a lower layer and bringing the warp sheets into the lease rope, the ink-jet printing device is used for ink-jet printing on the warp sheets with the size film drying, and the warp sheet drying device is used for drying the printed warp sheets. The equipment can carry out high-efficiency precise digital ink-jet printing processing on the warp and realize one-step completion of shaft combination, printing and drying.

Description

Production equipment for digital ink-jet warp-printed hazy flower fabric

Technical Field

The utility model relates to a weaving equipment field especially relates to a digital ink jet printing warp hazy flower fabric production facility.

Background

The conventional digital ink-jet printing fabric is made up by using bleached cloth as base cloth, making it pass through printing paste slurry cloth using sodium alginate as main component, then implementing digital ink-jet printing process, spray-printing ink on the surface of sized fabric (actually spray-printing on the slurry film), drying and then implementing steaming process, and utilizing the moistening action of high-temp. steam to force the dye molecules in the ink to permeate and transfer to the surface and interior of yarn fibre forming fabric, and promote them to react with fibre molecules so as to implement local dyeing of fabric fibre and form the invented colour with bright appearance. For single yarn fabrics such as cotton yarn, rayon yarn, cotton/polyester blended yarn and rayon/polyester blended yarn fabric, which mainly contain cellulose fibers, in order to realize high-speed smooth weaving, sizing processing is performed on warp yarns after warping by using modified starch as a main sizing agent component so as to improve the strength and wear resistance of the yarns and to adhere fiber hairiness on the surfaces of the yarns. The woven grey cloth can be made into a raw material base cloth of digital ink-jet printing, namely bleached cloth, through complex pretreatment processing such as singeing, scouring desizing, refining, bleaching, drying, sizing and the like. This process had two sizing runs: the sizing is carried out on the warp yarns for smooth weaving, and the sizing is carried out on the bleached cloth after desizing, boiling and bleaching. Although the purpose of sizing at two times is different from the components of sizing agent, the final result is that the sizing agent becomes the main direct source of COD in the printing and dyeing wastewater, and brings great pressure to the treatment of the printing and dyeing industrial wastewater; moreover, the processing materials (warp and grey cloth) are repeatedly wetted, boiled, washed, dried and shaped in the production process, and the energy consumption of the whole production process is huge. The process of refining and bleaching cloth sizing can be saved at least by adopting the warp printing technology, and the production process is relatively ecological and environment-friendly. However, since the single yarn must be sized before warping, the conventional warp printing fabric only aims at the variety of the folded yarn as warp yarn, and the warp printing processing production of the variety of the single-yarn warp fabric cannot be realized. And because of being limited by technical lines and equipment conditions, the existing ink-jet printing technology only adopts ink-jet printing of fabrics, and the technology and equipment for ink-jet printing of warp yarns are not available at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problem, a digital ink jet warp printing hazy flower fabric production facility is proposed.

The utility model adopts the following technical scheme:

a production device of a digital ink-jet warp printing hazy flower fabric comprises a plurality of warp splitting shafts, a splitting reed, an ink-jet printing device, a warp yarn piece drying device and a warp yarn piece reeling shaft, wherein the warp splitting shafts are used for releasing warp yarn pieces, the warp yarn piece reeling shaft is used for reeling the warp yarn pieces, the splitting reed is arranged between the warp splitting shafts and the warp yarn piece reeling shaft, the ink-jet printing device is arranged between the splitting reed and the warp yarn piece reeling shaft, and the warp yarn piece drying device is arranged between the ink-jet printing device and the warp yarn piece reeling shaft; the lease reed is used for dividing a plurality of warp sheets into an upper layer and a lower layer and bringing the warp sheets into the lease rope, the ink-jet printing device is used for ink-jet printing on the warp sheets, and the warp sheet drying device is used for drying the printed warp sheets.

Optionally, the warp splitting shaft comprises a first warp splitting shaft, a second warp splitting shaft, a third warp splitting shaft, a fourth warp splitting shaft and a fifth warp splitting shaft; first minute warp beam is installed on first warp beam frame, the second divides the warp beam to install on the second warp beam frame, the third divides the warp beam to install on the third warp beam frame, the fourth divides the warp beam to install on the fourth warp beam frame, the fifth divides the warp beam to install on the fifth warp beam frame.

The first warp dividing beam, the second warp dividing beam, the third warp dividing beam, the fourth warp dividing beam and the fifth warp dividing beam release the warp sheets. The first warp beam, the second warp beam, the third warp beam, the fourth warp beam and the fifth warp beam are respectively a first warp sheet, a second warp sheet, a third warp sheet, a fourth warp sheet and a fifth warp sheet; the first to fifth warp yarn sheets are low-density arranged thick liquid film drying warp yarn sheets made of special thick liquid slurry for ink-jet printing.

Optionally, the warp guide device further comprises a first yarn guide tension adjusting roller, a second yarn guide tension adjusting roller, a third yarn guide tension adjusting roller and a fourth yarn guide tension adjusting roller, wherein the first yarn guide tension adjusting roller is used for guiding warp sheets on a first warp dividing shaft and a second warp dividing shaft to a lease reed, the second yarn guide tension adjusting roller is used for guiding warp sheets on the third warp dividing shaft to the lease reed, the third yarn guide tension adjusting roller is used for guiding warp sheets on the fourth warp dividing shaft to the lease reed, and the fourth yarn guide tension adjusting roller is used for guiding warp sheets on the fifth warp dividing shaft to the lease reed.

Optionally, the yarn guide device further comprises a screen reed and a fixed reed base, wherein the screen reed is installed on the fixed reed base and is positioned between the fourth yarn guide tension adjusting roller and the leasing reed.

The screen reed is used for controlling the width of the warp yarn sheet and removing impurities such as floating hairiness and flying flowers and slashing defects such as stiff and bonded yarns and slashing blocks on the warp yarn sheet; the action of the lease reed is to divide the warp yarns which are combined to form the warp yarn sheets into an upper layer and a lower layer in sequence according to single and even serial numbers by virtue of the up-and-down adjustment action of the adjustable reed foot seat, and bring in lease ropes so as to facilitate the warp threading operation.

The specific lease reed is arranged on the adjustable reed foot seat, so that the height of the lease reed can be adjusted conveniently.

Optionally, the warp yarn guiding device further comprises a first tape guiding roller, a second tape guiding roller and a yarn guiding tape, wherein the first tape guiding roller and the second tape guiding roller are rotatably arranged at the position of the ink-jet printing device, the yarn guiding tape is rotatably sleeved on the first tape guiding roller and the second tape guiding roller, and the ink-jet printing device and the yarn guiding tape are respectively positioned at the upper side and the lower side of the warp yarn sheet.

Optionally, the cleaning device further comprises an electric heating blower, a hot air blowing port, a traction guide roller, a sponge wiping roller, a cleaning liquid tank and a cleaning brush roller, wherein the traction guide roller and the sponge wiping roller are rotatably arranged on the peripheral edge of the yarn guide belt, and the traction guide roller and the sponge wiping roller are both tightly attached to the yarn guide belt; the cleaning liquid tank is arranged near the yarn guide belt, the cleaning brush roller is rotatably arranged at the accessory of the yarn guide belt and is used for contacting with the yarn guide belt; the electric heating blower is connected with the hot air blowing port, and the hot air blower is arranged near the yarn guide belt.

As the warp yarns in the warp yarn sheet are arranged to have a certain warp yarn density, longitudinal gaps are inevitably formed among all the warp yarns, and the dyeing liquid ink is jetted and printed on the yarn guide belt in an ink jet printing process. The yarn guide belt is made of hydrophobic rubber material with certain elasticity, and the surface of the yarn guide belt is treated by polytetrafluoroethylene micro powder and is not stained with dye liquid ink. The leaked dye liquor ink is attached to the surface of the yarn guide belt in a micro-droplet mode, and stains of the dye liquor ink fall off under the cleaning of the cleaning brush roller and are dissolved in cleaning liquid in the cleaning liquid tank. The yarn guide belt intermittently rotates at a constant speed under the action of the first guide roller, the second guide roller and the traction guide roller, and becomes clean as before after dehydration under the extrusion dehydration of the traction guide roller and the further water absorption action of the sponge wiping roller, but the surface is still moist. The yarn guide belt with wet surface is dried under the action of the electric heating blower and the hot air blowing port and then enters the lower part of the digital ink-jet printing nozzle to continue to participate in warp printing.

Optionally, still include raceway, feed pump, back flow, aqua storage tank and filter screen, feed pump one end is passed through the raceway with the washing cistern meets, aqua storage tank one end with the feed pump meets, the aqua storage tank other end passes through the back flow with the washing cistern meets, the filter screen set up in the aqua storage tank.

The cleaning liquid (water) in the cleaning liquid tank is sent into the cleaning liquid tank from the water storage tank through a water supply pump and a water delivery pipe. The water level height of the cleaning tank is controlled by a return pipe, redundant cleaning liquid and liquid level foam are conveyed to a water storage tank, filtered by a filter screen and then enter a water drawing part of a water supply pump, and the cleaning liquid and the liquid level foam are recycled under the action of the water supply pump.

Optionally, the inkjet printing device includes a digital inkjet rack, a rail, a digital inkjet head and a nozzle, the rail is erected between the leasing reed and the warp sheet reeling shaft, the digital inkjet rack is slidably mounted on the rail, the digital inkjet head is mounted on the digital inkjet rack, and the nozzle is mounted on the digital inkjet head.

Optionally, still include electric heat blowing pipe, induced-draft cover, exhaust-gas collection pipe, exhaust-gas purification processor and exhaust pipe, the electric heat blowing pipe sets up in warp piece drying device, the induced-draft cover sets up in warp piece drying device week edge, exhaust-gas purification processor sets up in induced-draft cover week edge, exhaust-gas purification processor one end pass through the exhaust-gas collection pipe with the induced-draft cover meets, the exhaust-gas purification processor other end with the exhaust pipe meets, the induced-draft cover is used for collecting the moist hot aqueous vapor that overflows in the follow warp piece drying device.

Optionally, still include first carry over pinch rolls, second carry over pinch rolls, automatic adjustment roller, reel and beam of a loom frame, first carry over pinch rolls sets up near inkjet printing device, the second carry over pinch rolls sets up near the warp piece reeling axle, the automatic adjustment roller sets up second carry over pinch rolls with between the warp piece reeling crankshaft, the reel is installed on the warp piece reeling shaft, the warp piece reeling shaft rotates and installs on the beam of a loom frame, warp piece reeling shaft transmission installs at beam of a loom frame week edge, the warp piece reeling shaft is through rotating with the warp piece batching beam of a loom.

The utility model has the advantages that: this device can carry out inkjet printing to the warp.

Description of the drawings:

FIG. 1 is a side view of a digital ink jet printed hazy flower fabric production facility;

fig. 2 is a top view of a digital ink-jet warp-printed hazy fabric production device.

The figures are numbered: 1. first warp sheet, 2, second warp sheet, 3, third warp sheet, 4, fourth warp sheet, 5, fifth warp sheet, 6, first beam splitter, 7, second beam splitter, 8, third beam splitter, 9, fourth beam splitter, 10, fifth beam splitter, 11, first beam creel, 12, second beam creel, 13, third beam creel, 14, fourth beam creel, 15, fifth beam creel, 16, first yarn guide dancer, 17, second yarn guide dancer, 18, third yarn guide dancer, 19, fourth yarn guide dancer, 20, size film drying warp sheet, 21, fixed shoe, 22, screen reed, 23, adjustable reed shoe, 24, split reed, 25, first draft roller, 26, tape, 27, first yarn guide tape roller, 28, second yarn guide tape roller, 29, rail, 30, ink jet printer head, 31, digital printing head, 32. spray head, 33, wet warp sheet, 34, cleaning brush roller, 35, cleaning liquid tank, 36, water pipe, 37, water supply pump, 38, reflux pipe, 39, water storage tank, 40, filter screen, 41, traction guide roller, 42, sponge wiping roller, 43, hot air blowing port, 44, electric heating blower, 45, sponge wiping roller, 46, computer keyboard, 47, display, 48, computer host, 49, warp sheet drying device, 50, electric heating blowing pipe, 51, air suction hood, 52, waste gas collecting pipe, 53, waste gas purifying processor, 54, exhaust pipe, 55, dried flower warp sheet, 56, second traction roller, 57, automatic adjusting roller, 58, reel, 59, warp sheet winding shaft, 60, weaving shaft, 61, weaving shaft rack, 62, warp sheet winding shaft transmission device, 63, integrated control cabinet, 64, liquid crystal data input window, 65, first network data cable, 66. a second network data cable 67, a digital ink-jet printing machine transmission system box 68 and an indicator light.

The specific implementation mode is as follows:

the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, a digital ink-jet warp printing hazy flower fabric production device comprises a plurality of warp beam splitting devices, a leasing reed, an ink-jet printing device, a warp sheet drying device 49 and a warp sheet reeling shaft 59, wherein the warp beam splitting device is used for releasing warp sheets, the warp sheet reeling shaft 59 is used for reeling warp sheets, the leasing reed 24 is arranged between the warp beam splitting device and the warp sheet reeling shaft 59, the ink-jet printing device is arranged between the leasing reed and the warp sheet reeling shaft 59, and the warp sheet drying device 49 is arranged between the ink-jet printing device and the warp sheet reeling shaft 59; the lease reed is used for dividing a plurality of warp yarn pieces into an upper layer and a lower layer and bringing the warp yarn pieces into the lease rope, the ink-jet printing device is used for jetting ink to the warp yarn pieces, and the warp yarn piece drying device 49 is used for drying the printed warp yarn pieces.

As shown in fig. 1 and fig. 2, the warp beam comprises a first warp beam 6, a second warp beam 7, a third warp beam 8, a fourth warp beam 9 and a fifth warp beam 10; the first beam splitter 6 is arranged on a first beam bracket 11, the second beam splitter 7 is arranged on a second beam bracket 12, the third beam splitter 8 is arranged on a third beam bracket 13, the fourth beam splitter 9 is arranged on a fourth beam bracket 14, and the fifth beam splitter 10 is arranged on a fifth beam bracket 15.

The first divided warp beam 6, the second divided warp beam 7, the third divided warp beam 8, the fourth divided warp beam 9 and the fifth divided warp beam 10 release the warp sheets. Specifically, the first warp beam splitter 6, the second warp beam splitter 7, the third warp beam splitter 8, the fourth warp beam splitter 9 and the fifth warp beam splitter 10 are a first warp sheet 1, a second warp sheet 2, a third warp sheet 3, a fourth warp sheet 4 and a fifth warp sheet 5 respectively. The first warp yarn sheet 1, the second warp yarn sheet 2, the third warp yarn sheet 3, the fourth warp yarn sheet 4 and the fifth warp yarn sheet 5 form a dry warp yarn sheet 20 with a size film under the action of a lease reed 24, the dry warp yarn sheet 20 with the size film becomes a wet warp yarn sheet 33 after ink-jet printing, and the wet warp yarn sheet 33 becomes a patterned warp yarn sheet 55 after being dried by a warp yarn sheet drying device 49.

As shown in fig. 1 and fig. 2, the warp guide device further comprises a first yarn guiding tension adjusting roller 16, a second yarn guiding tension adjusting roller 17, a third yarn guiding tension adjusting roller 18 and a fourth yarn guiding tension adjusting roller 19, wherein the first yarn guiding tension adjusting roller 16 is used for guiding warp sheets on a first beam splitter and a second beam splitter to a lease reed 24, the second yarn guiding tension adjusting roller 17 is used for guiding warp sheets on a third beam splitter to the lease reed 24, the third yarn guiding tension adjusting roller 18 is used for guiding warp sheets on a fourth beam splitter to the lease reed 24, and the fourth yarn guiding tension adjusting roller 19 is used for guiding warp sheets on a fifth beam to the lease reed 24.

As shown in fig. 1 and fig. 2, the yarn guide device further comprises a screen reed 22 and a fixed reed base 21, wherein the screen reed 22 is installed on the fixed reed base 21, and the screen reed 22 is located between the fourth yarn tension adjusting roller 19 and the leasing reed.

The screen reed 22 is used for controlling the width of the warp yarn sheet and removing impurities such as floating hairiness and flying flowers and slashing defects such as stiff and bonded yarns and slashing blocks on the warp yarn sheet; the action of the lease reed 24 is to divide the warp yarns which are combined to form the warp yarn sheets into an upper layer and a lower layer in sequence according to single and even serial numbers by virtue of the up-and-down adjustment action of the adjustable reed foot seats, and bring in lease ropes so as to facilitate the warp threading operation.

The particular lease reed is mounted on an adjustable reed foot 23, which is to facilitate the adjustment of the height of the lease reed.

As shown in fig. 1 and fig. 2, further comprises a first tape guide roller 27, a second tape guide roller 28 and a yarn guide tape 26, wherein the first tape guide roller 27 and the second tape guide roller 28 are rotatably disposed at the inkjet printing device, the yarn guide tape 26 is rotatably sleeved on the first tape guide roller 27 and the second tape guide roller 28, and the inkjet printing device and the yarn guide tape 26 are respectively disposed at the upper and lower sides of the warp sheet,

as shown in fig. 1 and fig. 2, the cleaning device further comprises an electric heating blower 44, a hot air blowing port 43, a traction guide roller 41, a sponge wiping roller 42, a sponge wiping roller 45, a cleaning liquid tank 35 and a cleaning brush roller 34, wherein the traction guide roller 41, the sponge wiping roller 42 and the sponge wiping roller 45 are rotatably arranged on the periphery of the yarn guide belt 26, and the traction guide roller 41, the sponge wiping roller 42 and the sponge wiping roller 45 are tightly attached to the yarn guide belt 26; the cleaning liquid tank 35 is arranged near the yarn guide belt 26, the cleaning brush roller 34 is rotationally arranged near the yarn guide belt 26, and the cleaning brush roller 34 is used for being in contact with the yarn guide belt 26; the electric blower 44 is connected to the hot air blowing port 43, and the hot air blower is disposed near the yarn guide belt 26.

Since the warp yarns in the warp sheet are arranged to have a certain warp yarn density, longitudinal gaps are inevitably formed between the warp yarns, and the dyeing liquid ink is jetted and printed on the yarn guide belt 26 in the ink jet printing process. The yarn guide belt 26 is made of hydrophobic rubber material with certain elasticity, and the surface of the yarn guide belt is treated by polytetrafluoroethylene micro powder and is not stained with dye liquid ink. The leaked dye ink adheres to the surface of the yarn guide belt 26 in the form of micro droplets, and stains of the dye ink fall off under the cleaning of the cleaning brush roller 34 and are dissolved in the cleaning liquid tank 35. The yarn guide belt 26 makes intermittent uniform rotation motion under the action of the first guide roller, the second guide roller and the traction guide roller 41, and the yarn guide belt 26 becomes clean as before after dehydration through extrusion dehydration of the traction guide roller 41 and further water absorption of the sponge wiping roller 42, but the surface is relatively moist. The yarn guiding belt 26 with wet surface enters the lower part of the digital ink-jet printing spray head 32 after being dried and without residues under the action of the electric heating blower 44, the hot air blowing port 43 and the sponge wiping roller 45, and continues to participate in the warp printing work.

As shown in fig. 1 and 2, the washing machine further comprises a water pipe 36, a water supply pump 37, a return pipe 38, a water storage tank 39 and a filter screen 40, wherein one end of the water supply pump 37 is connected with the washing liquid tank 35 through the water pipe 36, one end of the water storage tank 39 is connected with the water supply pump 37, the other end of the water storage tank 39 is connected with the washing liquid tank 35 through the return pipe 38, and the filter screen 40 is arranged in the water storage tank 39.

The cleaning liquid (water) in the cleaning liquid tank 35 is fed from the water storage tank 39 to the cleaning liquid tank 35 through the water feed pump 37 and the water feed pipe 36. The water level of the cleaning tank is controlled by a return pipe 38, and the excessive cleaning liquid and the liquid level foam are conveyed to a water storage tank 39, filtered by a filter screen 40 and then enter a water drawing part of a water supply pump 37, and are circularly used under the action of the water supply pump 37.

As shown in fig. 1 and fig. 2, the inkjet printing apparatus includes a digital inkjet rack 30, a rail 29, a digital inkjet head 31 and a nozzle 32, wherein the rail 29 is arranged between a leasing reed and a warp sheet winding shaft 59, the digital inkjet rack 30 is slidably mounted on the rail 29, the digital inkjet head 31 is mounted on the digital inkjet rack 30, and the nozzle 32 is mounted on the digital inkjet head 31.

The selection of the pattern to be printed and the specific parameters of the printing process are input and adjusted by the operator via the computer keyboard 46 and the display 47. The transmission systems of the height adjusting system and the yarn guide belt cleaning part of the digital ink-jet printing machine frame 30 are arranged in a transmission system box body 67 of the digital ink-jet printing machine on the right side of the digital ink-jet printing device.

As shown in fig. 1 and fig. 2, the device further comprises an electric heating blowing pipe 50, an air suction hood 51, an exhaust gas collecting pipe 52, an exhaust gas purifying processor 53 and an exhaust pipe 54, wherein the electric heating blowing pipe 50 is arranged in the warp yarn sheet drying device 49, the air suction hood 51 is arranged at the periphery of the warp yarn sheet drying device 49, the exhaust gas purifying processor 53 is arranged at the periphery of the air suction hood 51, one end of the exhaust gas purifying processor 53 is connected with the air suction hood 51 through the exhaust gas collecting pipe 52, the other end of the exhaust gas purifying processor 53 is connected with the exhaust pipe 54, and the air suction hood 51 is used for collecting wet and hot water vapor overflowing from the warp yarn sheet drying device 49.

As shown in fig. 1 and fig. 2, the device further comprises a first traction roller 25, a second traction roller 56, an automatic adjusting roller 57, a shaft disc 58, a beam frame 61 and a warp sheet reeling shaft transmission device 62, wherein the first traction roller 25 is arranged near the ink-jet printing device, the second traction roller 56 is arranged near the warp sheet reeling shaft 59, the automatic adjusting roller 57 is arranged between the second traction roller 56 of the second traction roller 56 and the warp sheet reeling shaft, the shaft disc 58 is arranged on the warp sheet reeling shaft 59, the warp sheet reeling shaft 59 is rotatably arranged on the beam frame 61, the warp sheet reeling shaft transmission device 62 is arranged on the peripheral edge of the beam frame 61, and the warp sheet reeling shaft 59 rolls the warp sheet into the beam 60 by rotating.

An ink-jet warp-printing and beam-combining machine system integrated control cabinet 63 is arranged on the right side of the beam-weaving frame 61, an operator sets and adjusts relevant technological parameters of specific variety production and processing and starting and stopping operations through a liquid crystal data input window 64 on the integrated control cabinet 63, and the running state of the whole ink-jet warp-printing and beam-combining machine is judged through a running state indicator lamp 68. The integrated control cabinet 63 is connected with a driving system of a beam reeling part, a warp drying part, a digital ink-jet printing part, a yarn guide belt cleaning part, a split beam unwinding tension control part and the like through a first network data cable 65, so that synchronous operation control and fault automatic parking alarm of devices of all parts are realized.

The above only is the preferred embodiment of the present invention, not therefore the limit the patent protection scope of the present invention, all applications the equivalent structure transformation made by the contents of the specification and the drawings of the present invention is directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.

Claims (10)

1. The production equipment of the digital ink-jet warp printing hazy flower fabric is characterized by comprising a plurality of warp splitting shafts, a splitting reed, an ink-jet printing device, a warp yarn piece drying device and a warp yarn piece reeling shaft, wherein the warp splitting shafts are used for releasing warp yarn pieces, the warp yarn piece reeling shaft is used for reeling the warp yarn pieces, the splitting reed is arranged between the warp splitting shafts and the warp yarn piece reeling shaft, the ink-jet printing device is arranged between the splitting reed and the warp yarn piece reeling shaft, and the warp yarn piece drying device is arranged between the ink-jet printing device and the warp yarn piece reeling shaft; the lease reed is used for dividing a plurality of warp sheets into an upper layer and a lower layer and bringing the warp sheets into the lease rope, the inkjet printing device is used for performing inkjet printing on the warp sheets, and the warp sheet drying device is used for drying the warp sheets subjected to inkjet printing.

2. The digital ink-jet pad printing dimly patterned fabric production equipment according to claim 1, wherein the warp beams comprise a first warp beam, a second warp beam, a third warp beam, a fourth warp beam and a fifth warp beam; the first warp beam splitter is arranged on a first warp beam frame, the second warp beam splitter is arranged on a second warp beam frame, the third warp beam splitter is arranged on a third warp beam frame, the fourth warp beam splitter is arranged on a fourth warp beam frame, and the fifth warp beam splitter is arranged on a fifth warp beam frame; each warp dividing shaft is used for unwinding the warp dividing yarn piece required by the supply combining shaft; the warp yarn separating sheet is a low-density arranged warp yarn sheet which is made of special size slurry for ink-jet printing and is provided with a sizing film drying layer.

3. The digital ink-jet warp printing hazy fabric production equipment of claim 2, further comprising a first yarn tension adjusting roller for guiding the warp yarn sheets on the first and second sub-beams to the lease reed, a second yarn tension adjusting roller for guiding the warp yarn sheets on the third sub-beam to the lease reed, a third yarn tension adjusting roller for guiding the warp yarn sheets on the fourth sub-beam to the lease reed, and a fourth yarn tension adjusting roller for guiding the warp yarn sheets on the fifth sub-beam to the lease reed.

4. The apparatus for producing a hazy flower fabric by digital ink-jet printing according to claim 3, further comprising a screen reed and a fixed reed base, wherein the screen reed is installed on the fixed reed base, and the screen reed is located between the fourth yarn tension adjusting roller and the lease reed.

5. The apparatus for producing a hazy fabric by digital ink-jet printing through according to claim 1, further comprising a first tape guide roller, a second tape guide roller and a yarn guide tape, wherein the first tape guide roller and the second tape guide roller are rotatably disposed at the ink-jet printing device, the yarn guide tape is rotatably sleeved on the first tape guide roller and the second tape guide roller, and the ink-jet printing device and the yarn guide tape are respectively disposed at upper and lower sides of the warp sheet.

6. The apparatus for producing a hazy fabric by digital ink-jet printing according to claim 5, further comprising an electric blower, a hot air blowing port, a drawing guide roller, a sponge wiping roller, a cleaning liquid tank and a cleaning brush roller, wherein the drawing guide roller and the sponge wiping roller are rotatably disposed at the periphery of the yarn guide belt, and the drawing guide roller and the sponge wiping roller are both tightly attached to the yarn guide belt; the cleaning liquid tank is arranged near the yarn guide belt, the cleaning brush roller is rotatably arranged at the accessory of the yarn guide belt and is used for contacting with the yarn guide belt; the electric heating blower is connected with the hot air blowing port, and the hot air blower is arranged near the yarn guide belt.

7. The apparatus for producing a hazy fabric with digital ink-jet printing and hazy stripes as claimed in claim 6, further comprising a water pipe, a water supply pump, a return pipe, a water storage tank and a filter screen, wherein one end of the water supply pump is connected to the cleaning tank through the water pipe, one end of the water storage tank is connected to the water supply pump, the other end of the water storage tank is connected to the cleaning tank through the return pipe, and the filter screen is disposed in the water storage tank.

8. The apparatus for producing a digitally inkjet printed hazy flower fabric according to claim 1, wherein the inkjet printing device comprises a digital inkjet carriage, a track, a digital inkjet head, and a nozzle, the track is mounted between the lease reed and the warp sheet take-up spool, the digital inkjet carriage is slidably mounted on the track, the digital inkjet head is mounted on the digital inkjet carriage, and the nozzle is mounted on the digital inkjet head.

9. The digital ink-jet printing hazy flower fabric production equipment according to claim 1, further comprising an electric heating blowing pipe, an air suction hood, a waste gas collecting pipe, a waste gas purifying processor and an exhaust pipe, wherein the electric heating blowing pipe is arranged in the warp yarn sheet drying device, the air suction hood is arranged on the periphery of the warp yarn sheet drying device, the waste gas purifying processor is arranged on the periphery of the air suction hood, one end of the waste gas purifying processor is connected with the air suction hood through the waste gas collecting pipe, the other end of the waste gas purifying processor is connected with the exhaust pipe, and the air suction hood is used for collecting wet and hot water vapor overflowing from the warp yarn sheet drying device.

10. The apparatus for producing a digitally inkjet printed hazy flower fabric according to claim 1, further comprising a first drawing roller disposed adjacent to the inkjet printing apparatus, a second drawing roller disposed adjacent to the warp sheet reeling shaft transmission apparatus, an automatic adjusting roller disposed between the second drawing roller and the warp sheet reeling shaft, a reel mounted on the warp sheet reeling shaft, the warp sheet reeling shaft rotatably mounted on the reel frame, the warp sheet reeling shaft transmission apparatus mounted on a peripheral edge of the reel frame, and a warp sheet reeling shaft for reeling the warp sheet into the reel by rotation.

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