CN211710330U - Digital composite printing machine - Google Patents

Digital composite printing machine Download PDF

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Publication number
CN211710330U
CN211710330U CN202020080827.9U CN202020080827U CN211710330U CN 211710330 U CN211710330 U CN 211710330U CN 202020080827 U CN202020080827 U CN 202020080827U CN 211710330 U CN211710330 U CN 211710330U
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China
Prior art keywords
cloth
roller
cloth feeding
printing machine
rubberizing
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CN202020080827.9U
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Chinese (zh)
Inventor
李新证
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Jiangsu Zhenglong Machinery Co ltd
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Jiangsu Zhenglong Machinery Co ltd
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Priority to CN202020080827.9U priority Critical patent/CN211710330U/en
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Abstract

The utility model relates to a digital composite printing machine, which relates to the technical field of printing machines, wherein a first section cloth feeding system for feeding cloth into a frame is connected on the frame, a second section cloth feeding system is connected on the first section cloth feeding system, a cloth conveying belt is arranged below the cloth feeding system, a scraper mechanism, a digital printing machine and a magnetic bar printing mechanism are sequentially arranged on the cloth conveying belt, and a first gluing system and a glue washing device are arranged below the cloth conveying belt; the magnetic bar printing mechanism comprises a first fixed arm fixed on the frame, two sides of the first fixed arm are connected with a first fixed seat in a sliding mode, two sides of the first fixed seat are provided with a first driving cylinder with a piston rod downward, a piston rod of the first driving cylinder is provided with an absorption seat, the absorption seat is adsorbed with a magnetic bar body through electromagnetic force, a magnetic seat is arranged below the cloth conveying belt and is connected with the frame in a sliding mode through a sliding mechanism. The utility model discloses have and carry out the dyestuff to thick fabric to make the dyestuff to thick fabric go on the effect of end penetrating.

Description

Digital composite printing machine
Technical Field
The utility model belongs to the technical field of digital printing machine's technique and specifically relates to a digital composite printing machine is related to.
Background
The digital printing machine is also known as a universal flat-bed printer. The universal flat printer of the arc printer can print any material and irregular soft and hard objects, such as: metal, pottery, quartzy, glass, acryl, stone, PVC, plastics, toy, USB flash disk, cloth, wooden, silica gel, leather etc. digital printer can be for you reduce cost, reduces the manual work, and the benefit is improved because digital printer need not out the film plate-making, full-color one-shot imaging, and the location is accurate, and the rejection rate is zero. The digital printer completely replaces the traditional technologies such as silk-screen transfer printing and transfer printing, belongs to the type of environment-friendly products, can be exported, and is the special printing trend of products in 2009. The digital printer prints high-security color images on the surfaces of materials, does not need to directly contact the materials, ensures the integrity of the printed materials, prints and dyes by the LOGE ink jet mode, does not deform due to heat and pressure, and does not need any preparation printing work in the prior period by utilizing the direct output printing mode of a computer. The digital printer is convenient and quick to print, and only has four printing steps: (1) the coating layer on the printing part → (2) printing → (3) natural drying (or drying) → (4) is finished, the operation is extremely simple, and the whole process can be operated by common people.
The Chinese patent with publication number CN206186545U discloses an elliptical multi-plate structure white ink and color ink double-jet printing digital printing machine, which comprises a digital printing machine body and a conveying device for conveying an object to be sprayed, wherein the digital printing machine body comprises a bracket, a spray head mechanism movably arranged on the bracket, a driving mechanism for driving the spray head mechanism to move back and forth and an ink supply mechanism, the output end of the ink supply mechanism is connected with the input end of the spray head mechanism, the digital printing machine body at least comprises a first digital printing machine body and a second digital printing machine body, the first digital printing machine body is used for spraying bottom ink, the second digital printing machine body is used for spraying color ink, the conveying device comprises an oval conveying assembly line and a plurality of table plates, the table plates are arranged on the oval conveying assembly line and used for placing objects to be sprayed, the table plates are correspondingly arranged below the spray head mechanism, and the first digital printing machine body and the second digital printing machine body are sequentially arranged along the conveying direction of the oval conveying assembly line. The utility model discloses can improve production efficiency effectively.
The above prior art solutions have the following drawbacks: when the digital printer is used, if the thick fabric is used, the surface of the thick fabric can only be printed, and after printing is finished, the fabric at the bottom layer is not printed with colors, so that the condition of incomplete dyeing is caused.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a can go on the digital composite printing machine of end penetrating to thick fabric to the not enough of prior art existence.
The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:
a digital composite printing machine comprises a rack, wherein a first section cloth feeding system used for inputting cloth into the rack is connected to the rack, the first section cloth feeding system is connected with a second section cloth feeding system, a cloth conveying belt is arranged below the cloth feeding system, a scraper mechanism, a digital printing machine and a magnetic bar printing mechanism are sequentially arranged on the cloth conveying belt, and a first gluing system and a glue washing device are arranged below the cloth conveying belt;
the bar magnet printing mechanism is including being fixed in the first fixed arm in the frame, first fixed arm both sides are slided and are connected with first fixing base, first fixing base both sides are provided with the piston rod direction and are the decurrent first actuating cylinder that drives, be provided with the absorption seat on the first piston rod that drives actuating cylinder, it has the bar magnet body to absorb the seat through electromagnetic force adsorption, the cloth conveyer belt below is provided with the magnetic support, the magnetic support slides through glide machanism and frame and is connected.
By adopting the technical scheme, the cloth enters the printing machine through the first section of cloth feeding system and the second section of cloth feeding system, then the cloth is conveyed to the cloth conveying belt, the cloth conveying belt is covered with a layer of glue through the first gluing system, and the cloth is attached to the cloth conveying belt through the glue. When needs are wet to be beaten, beat digital glue on the cloth through scraper mechanism, carry out digital printing to the local little area colour difference department of cloth through digital printing machine, the cloth continues the conveying, when reaching the bar magnet below, absorb the seat and put down the bar magnet, the bar magnet is adsorbed to the magnetic seat, the bar magnet passes through glide machanism horizontal slip, drives the bar magnet and goes upward the roll at the cloth to with the large tracts of land colour under the seal on the cloth. When doing and beating, can be with the cloth flattening through the scraper, carry out digital printing to the local little area colour difference department of cloth through digital printing machine, the large tracts of land colour is the same and is rolled on the magnetism seat through the magnet rod body and dye. And finally, removing the glue on the cloth conveying belt through a glue washing device.
The present invention may be further configured in a preferred embodiment as: the scraper mechanism comprises a second fixed arm fixed on the rack, wherein two sides of the second fixed arm are connected with a second fixed seat in a sliding manner, two sides of the second fixed seat are provided with a piston rod, the piston rod direction of the second fixed seat is downward, and a scraper body is arranged on the piston rod of the second driving cylinder.
By adopting the technical scheme, the piston rod of the second driving cylinder extends downwards to press the scraper body on the cloth, and the second fixed seat slides on the second fixed wall to scrape and dye the cloth; meanwhile, the cloth can be scraped by the scraper body to be leveled.
The present invention may be further configured in a preferred embodiment as: the sliding mechanism comprises a first nut below the magnetic base, a first screw rod rotatably connected with the rack is connected with the first nut in an internal thread mode, and a first servo motor is coaxially connected with the first screw rod.
Through adopting above-mentioned technical scheme, first servo motor rotates, drives first screw rod and rotates, and first nut turns into linear motion with the power of circling round of first screw rod, and first nut drives the magnetic base and removes along perpendicular cloth direction of transfer to can roll on the cloth with the bar magnet cooperation of top, stamp.
The present invention may be further configured in a preferred embodiment as: and second screws parallel to the cloth conveying direction are arranged on two sides of the digital printing machine and are rotatably connected with the rack, the second screws are coaxially connected with a second servo motor, and second nuts fixedly connected with two sides of the digital printing machine are in threaded connection with the second screws.
Through adopting above-mentioned technical scheme, second servo motor rotates, drives the second screw rod and rotates, and the second nut turns into linear motion with the power of circling round of second screw rod, and the second nut drives digital calico printing machine and removes along cloth direction of transfer.
The present invention may be further configured in a preferred embodiment as: the first section cloth feeding system comprises a placing seat for placing a raw material cloth roll, a first cloth feeding roller and a second cloth feeding roller which are connected with the rack in a rotating mode are arranged above the placing seat, the first cloth feeding roller and the second cloth feeding roller are attached to each other, the first cloth feeding roller is coaxially connected with a cloth feeding motor, a recovery chamber is arranged below the second cloth feeding roller, and the recovery chamber comprises an arc recovery plate and an infrared inductor located on the arc recovery plate.
Through adopting above-mentioned technical scheme, drive first cloth feeding roller through cloth feeding motor and rotate, drive the cloth and get into the recovery room, the cloth piles up in the recovery room, because some cloths have elasticity, the pulling cloth can cause the cloth too tight, is unfavorable for the dyeing of cloth, through the recovery room, can let the cloth resume elasticity. Whether cloth is stacked in the recovery room can be monitored through the infrared sensor.
The present invention may be further configured in a preferred embodiment as: the second section cloth feeding system comprises a cloth feeding box, a third cloth feeding roller and a fourth cloth feeding roller which are parallel to each other are rotatably connected to the upper portion of the interior of the cloth feeding box, a first unfolding roller is connected to the inner section of the cloth feeding box in a rotating mode, a second unfolding roller, a third unfolding roller and a fourth unfolding roller are arranged below the cloth feeding box, a movable wheel which is abutted to a cloth conveying belt is arranged below the cloth feeding box, and the movable wheel is connected with the cloth feeding box in a horizontal moving mode.
Through adopting above-mentioned technical scheme, can the centre gripping cloth through third cloth feed roller and fourth cloth feed roller to let the stable transmission of cloth go into the cloth feeding box, then expand roller, third through first expansion roller, second and expand roller and fourth and expand the roller, fully expand the cloth, reduce the condition that the fold appears in the cloth. The cloth conveyer belt conveys a distance forward, and loose wheel conveys along with the cloth conveyer belt forward, and then after the cloth conveyer belt stopped, loose wheel moved to keeping away from the direction of transfer, and the flattening of will follow-up cloth is pressed on the cloth conveyer belt, plays the purpose of flattening.
The present invention may be further configured in a preferred embodiment as: and groove-type photoelectric sensors are arranged on two sides of the third unfolding roller.
Through adopting above-mentioned technical scheme, can adjust the position of cloth in data send process, carry out better location, reduce the cloth and shake about and appear printing and dyeing inaccurate purpose.
The present invention may be further configured in a preferred embodiment as: the first gluing system comprises a first gluing groove, a first gluing roller is arranged in the first gluing groove, a second gluing roller is tightly attached to the upper side of the first gluing roller, a third gluing roller is tightly attached to the second gluing roller, the first gluing roller, the second gluing roller and the third gluing roller are coaxially connected with a driving device, and a cloth conveying belt is tightly attached to the upper side of the third gluing roller.
Through adopting above-mentioned technical scheme, the first rubberizing roller of drive rotates, and first rubberizing roller rotates to be stained with the glue of first putting in the gluey groove, and the glue on the first rubber roll of putting conveys second rubberizing roller and third rubberizing roller in proper order, can let the glue layer attenuation to even scribble on the cloth conveyer belt.
The present invention may be further configured in a preferred embodiment as: the cloth conveying belt is provided with a second gluing system, the second gluing system comprises a second gluing groove, a fourth gluing roller is arranged in the second gluing groove, a fifth gluing roller is tightly attached to the upper portion of the fourth gluing roller, a sixth gluing roller is tightly attached to the fifth gluing roller, the fourth gluing roller, the fifth gluing roller and the sixth gluing roller are coaxially connected with a driving device, and the cloth conveying belt is tightly attached to the upper portion of the sixth gluing roller.
Through adopting above-mentioned technical scheme, drive arrangement drive fourth rubberizing roller rotates, and the fourth rubberizing roller rotates to be stained with the glue that the second was put in the gluey groove, and glue on the fourth was put the rubber roll conveys fifth rubberizing roller and sixth rubberizing roller in proper order, can let the glue layer attenuate to even scribble on the cloth conveyer belt.
The present invention may be further configured in a preferred embodiment as: the glue washing device comprises a washing tank, a rotating roller is connected in the washing tank in a rotating mode, a washing motor is coaxially connected with the rotating roller, washing sponge is arranged on the rotating roller, and the washing sponge abuts against the lower portion of the cloth conveying belt.
Through adopting above-mentioned technical scheme, the washing motor rotates, drives the live-rollers rotation to drive washing sponge and wash the cloth conveyer belt, wash the glue film on the cloth conveyer belt down.
To sum up, the utility model discloses a following at least one useful technological effect:
1. beat digital glue on the cloth through scraper mechanism, carry out digital printing to the local little area colour difference department of cloth through digital printing machine, the cloth continues the conveying, when reaching the bar magnet body below, absorbs the seat and puts down the bar magnet body, and the bar magnet body is adsorbed to the magnetic base, and the magnetic base passes through glide machanism horizontal slip, drives the bar magnet body and rolls on the cloth to with large tracts of land colour under the seal on the cloth. When the fabric is dried, the fabric can be leveled by a scraper, the local small-area color of the fabric is digitally printed at different positions by a digital printer, and the large-area color is dyed at the same position by rolling a magnetic rod body on a magnetic seat, so that the fabric can be obtained;
2. the first servo motor rotates to drive the first screw rod to rotate, the first nut converts the rotary force of the first screw rod into linear motion, and the first nut drives the magnetic seat to move along the direction vertical to the cloth conveying direction, so that the magnetic seat can be matched with the magnetic rod above the magnetic seat to roll on the cloth for printing;
3. the driving device drives the first gluing roller to rotate, the first gluing roller rotates to be stained with glue in the first glue discharging groove, the glue on the first glue discharging roller is sequentially conveyed to the second gluing roller and the third gluing roller, a glue layer can be thinned, and the glue layer can be uniformly coated on the cloth conveying belt.
Drawings
Fig. 1 is a schematic structural view of the whole of embodiment 1.
FIG. 2 is a schematic structural view of a cross section of embodiment 1.
Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.
FIG. 4 is a schematic sectional view showing the structure of example 3.
In the figure, 1, a frame; 2. a first stage of cloth feeding system; 21. a placing seat; 211. a discharge roller; 212. a ball bearing; 22. a first cloth feed roller; 23. a second cloth feeding roller; 24. a cloth feeding motor; 25. a recovery room; 251. an arc-shaped recovery plate; 252. an infrared sensor; 3. a second stage of cloth feeding system; 31. a cloth feeding box; 32. a third cloth feeding roller; 33. a fourth cloth feeding roller; 34. a first unwinding roller; 35. a second unwinding roller; 36. a third unwinding roller; 361. a groove-type photoelectric sensor; 37. a fourth unwinding roller; 38. a loose wheel; 381. a traveling cylinder; 4. a cloth conveyor belt; 5. a scraper mechanism; 51. a second fixed arm; 52. a second fixed seat; 53. a scraper body; 54. a second driving cylinder; 6. a digital printer; 61. a second screw; 62. a second servo motor; 63. a second nut; 7. a magnetic bar printing mechanism; 71. a first fixed arm; 711. a magnetic rod moving screw; 72. a first fixed seat; 73. a first driving cylinder; 74. an absorption seat; 75. a magnetic rod body; 76. a magnetic base; 77. a sliding mechanism; 771. a first nut; 772. a first screw; 773. a first servo motor; 8. a first gluing system; 81. a first glue discharging groove; 82. a first sizing roller; 83. a second sizing roller; 84. a third sizing roller; 9. a glue washing device; 91. a rinsing bath; 92. a rotating roller; 93. washing the motor with water; 94. washing the sponge with water; 10. a second gluing system; 101. a second glue discharging groove; 102. a fourth sizing roller; 103. a fifth sizing roller; 104. and a sixth sizing roller.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Example 1: referring to fig. 1, for the utility model discloses a digital composite printing machine, including frame 1, be connected with the first section cloth feeding system 2 that is used for inputting frame 1 with the cloth in frame 1, first section cloth feeding system 2 is connected with and is used for the cloth location and the second section cloth feeding system 3 of carrying once more, is provided with the cloth conveyer belt 4 that is used for carrying out the cloth forward transmission advancing cloth system below to cloth conveyer belt 4 top has set gradually and has carried out the scraper mechanism 5, digital printing machine 6 and the bar magnet printing mechanism 7 of stamp to the cloth.
Referring to fig. 2, the first stage cloth feeding system 2 comprises a placing seat 21 for placing a raw material cloth roll, the placing seat 21 is two rotatable discharging rollers 211, the raw material cloth roll is placed on the discharging rollers 211, and the raw material cloth roll can rotate on the discharging rollers 211, so as to feed the cloth into the printing machine. A first cloth feeding roller 22 and a second cloth feeding roller 23 which are rotatably connected with the rack 1 are arranged above the placing seat 21, the first cloth feeding roller 22 is attached to the second cloth feeding roller 23, the first cloth feeding roller 22 is coaxially connected with a cloth feeding motor 24 (see fig. 1), the first cloth feeding roller 22 and the second cloth feeding roller 23 clamp cloth, and the cloth feeding motor 24 drives the first cloth feeding roller 22 to rotate so as to convey the cloth to the printing machine. Be provided with in second feed roller 23 below and resume room 25, resume room 25 including arc recovery board 251 with be located the infrared inductor 252 on arc recovery board 251, because some cloth have elasticity, when the cloth was carried to the calico printing machine, can pull the cloth, cause the cloth too tight, be unfavorable for the dyeing of cloth, pile up on arc recovery board 251 through the cloth, can let the cloth resume elasticity to whether there is the cloth to pile up through infrared inductor 252 can monitor and resume room 25.
Referring to fig. 2, the second stage cloth feeding system 3 includes a cloth feeding box 31, a third cloth feeding roller 32 and a fourth cloth feeding roller 33 which are parallel to each other are rotatably connected to the upper portion of the cloth feeding box 31, and the cloth is primarily conveyed by the third cloth feeding roller 32 and the fourth cloth feeding roller 33. A first unfolding roller 34 is rotatably connected to the middle section of the cloth feeding box 31, a second unfolding roller 35, a third unfolding roller 36 and a fourth unfolding roller 37 are arranged below the cloth feeding box 31, and the cloth is fully unfolded through the first unfolding roller 34, the second unfolding roller 35, the third unfolding roller 36 and the fourth unfolding roller 37, so that the wrinkle of the cloth is reduced. The lower part of the cloth feeding box 31 is provided with a loose pulley 38 which is abutted against the cloth conveying belt 4, the loose pulley 38 is horizontally and movably connected with the cloth feeding box 31, the center of the loose pulley 38 is coaxially and rotatably connected with a piston rod of a loose cylinder 381, and the loose cylinder 381 is transversely arranged to push the loose pulley 38 to move left and right. The cloth conveyer belt 4 conveys a distance forward, the loose wheel 38 conveys forward along with the cloth conveyer belt 4, then after the cloth conveyer belt 4 stops, the piston rod pushed by the loose cylinder 381 extends out, the loose wheel 38 moves towards the direction far away from the conveying direction, and the subsequent cloth is flatly pressed on the cloth conveyer belt 4, so that the purpose of leveling is achieved. In this embodiment, the third unwinding roller 36 both sides all are provided with slot type photoelectric sensor 361, can adjust the position of cloth in the data send process, carry out better location, reduce the cloth and shake about and appear the inaccurate purpose of printing and dyeing.
Referring to fig. 2, the scraper mechanism 5 includes a second fixing arm 51 fixed on the frame 1, two sides of the second fixing arm 51 are slidably connected with a second fixing base 52, two sides of the second fixing base 52 are provided with a second driving cylinder 54 with a piston rod in a downward direction, and a scraper body 53 is arranged on the piston rod of the second driving cylinder 54. The piston rod of the second driving cylinder 54 extends downwards to press the scraper body 53 on the cloth, and the second fixed seat 52 slides on the second fixed wall to scrape and dye the cloth; meanwhile, the cloth can be scraped by the scraper body 53 to be leveled.
Referring to fig. 3, the magnetic bar printing mechanism 7 includes a first fixing arm 71 fixed on the frame 1, a first fixing seat 72 slidably connected to both sides of the first fixing arm 71, a magnetic bar moving screw 711 disposed in the first fixing wall, a nut fixed to the first fixing seat 72 and screwed to the magnetic bar moving screw 711, and a driving device coaxially connected to the magnetic bar moving screw 711. A first driving cylinder 73 with a downward piston rod direction is arranged at two sides of the first fixing seat 72, an absorbing seat 74 is arranged on the piston rod of the first driving cylinder 73, a magnetic rod body 75 is absorbed on the absorbing seat 74 through electromagnetic force, a magnetic seat 76 is arranged below the cloth conveyor belt 4, and the magnetic seat 76 is connected with the frame 1 in a sliding manner through a sliding mechanism 77. The absorption seat 74 puts down the magnetic rod body 75, the magnetic seat 76 adsorbs the magnetic rod body 75, the magnetic seat 76 slides left and right through the sliding mechanism 77, the magnetic rod body 75 is driven to roll on the cloth, thereby large-area colors are printed on the cloth, after printing, the driving device drives the magnetic rod to move the screw 711 to rotate, the nut moves along with the rotation two movements of the magnetic rod to move the screw 711, the first fixed seat 72 is driven to move, the absorption seat 74 is moved, the magnetic rod body 75 is moved to the upper side, and the magnetic rod body 75 is adsorbed. The sliding mechanism 77 comprises a first nut 771 below the magnetic seat 76, a first screw 772 rotatably connected with the frame 1 is connected in the first nut 771 in a threaded manner, and a first servo motor 773 (see fig. 1) is coaxially connected with the first screw 772. Drive first screw 772 and rotate, first nut 771 turns into linear motion with first screw 772's convolution power, and first nut 771 drives magnetic support 76 and removes along perpendicular cloth direction of transfer to can roll on the cloth with the magnetic rod cooperation of top, carry out the stamp.
When in implementation: when the cloth is dried, the cloth can be leveled by the scraper, the digital printing is carried out on the different positions of the local small area colors of the cloth by the digital printing machine 6, and the same positions of the large area colors are dyed by rolling the magnetic rod bodies 75 on the magnetic seats 76. When the wet printing is needed, the piston rod of the second driving cylinder 54 extends downwards, the scraper body 53 is abutted to the cloth, the second fixing seat 52 moves on the second fixing wall to drive the digital glue to be printed on the cloth, the digital printing is performed on different local small-area colors of the cloth through the digital printing machine 6, the cloth is conveyed continuously, the magnetic rod body 75 on the magnetic rod printing mechanism 7 is pressed on the magnetic seat 76, the magnetic seat 76 slides left and right through the sliding mechanism 77 to drive the magnetic rod body 75 to roll upwards on the cloth, and therefore large-area colors are printed on the cloth.
Referring to fig. 2, a first gluing system 8 for gluing the cloth conveying belt is arranged below the cloth conveying belt 4, the first gluing system 8 comprises a first glue placing groove 81, a first gluing roller 82 is arranged in the first glue placing groove 81, a second gluing roller 83 is tightly attached to the upper side of the first gluing roller 82, a third gluing roller 84 is tightly attached to the second gluing roller 83, the first gluing roller 82, the second gluing roller 83 and the third gluing roller 84 are coaxially connected with a driving device, and the upper side of the third gluing roller 84 is tightly attached to the cloth conveying belt 4. The driving device drives the first gluing roller 82 to rotate, the first gluing roller 82 rotates to be stained with glue in the first glue discharging groove 81, the glue on the first glue discharging roller is sequentially conveyed to the second gluing roller 83 and the third gluing roller 84, a glue layer can be thinned, and the glue layer can be uniformly smeared on the cloth conveying belt 4.
Referring to fig. 3, the glue washing device 9 includes a washing tank 91, a rotating roller 92 is rotatably connected in the washing tank 91, a washing motor 93 (see fig. 1) is coaxially connected to the rotating roller 92, a washing sponge 94 is disposed on the rotating roller 92, and the washing sponge 94 abuts against the lower side of the fabric conveyor belt 4. The water washing motor 93 rotates to drive the rotating roller 92 to rotate, so as to drive the water washing sponge 94 to clean the fabric conveyor belt 4, and wash down the adhesive layer on the fabric conveyor belt 4.
The implementation principle of the embodiment is as follows: the first cloth feeding roller 22 and the second cloth feeding roller 23 clamp cloth, and the cloth feeding motor 24 drives the first cloth feeding roller 22 to rotate so as to convey the cloth to the printing machine. Be provided with in second feed roller 23 below and resume room 25, resume room 25 including arc recovery board 251 with be located the infrared inductor 252 on arc recovery board 251, because some cloth have elasticity, when the cloth is carried to the calico printing machine, can drag the cloth, cause the cloth too tight, be unfavorable for the dyeing of cloth, pile up on arc recovery board 251 through the cloth, can let the cloth resume elasticity, through first roller 34 that expandes, the second expandes roller 35, the third expandes roller 36 and fourth roller 37 that expandes, fully expand the cloth, reduce the condition that the fold appears in the cloth. The cloth is conveyed forwards continuously, the movable wheel 38 is conveyed forwards along with the cloth conveyor belt 4, then after the cloth conveyor belt 4 stops, the piston rod pushed by the movable cylinder 381 extends out, the movable wheel 38 moves towards the direction far away from the conveying direction, and the subsequent cloth is flatly pressed on the cloth conveyor belt 4. Meanwhile, the driving device drives the first gluing roller 82 to rotate, the first gluing roller 82 rotates to be stained with glue in the first gluing groove 81, the glue on the first gluing roller is sequentially conveyed to the second gluing roller 83 and the third gluing roller 84, a glue layer can be thinned and is uniformly smeared on the cloth conveying belt 4 to adhere cloth conveyed on the cloth conveying belt, a piston rod of the second driving cylinder 54 extends downwards to press the scraper body 53 on the cloth, and the second fixing seat 52 slides on the second fixing wall to scrape and dye the cloth; meanwhile, the cloth can be scraped by the scraper body 53 to be leveled. Carry out the stamp to the cloth through digital calico printing machine, absorb seat 74 and put down the bar magnet body 75, the bar magnet body 75 is adsorbed to the bar magnet 76, the bar magnet 76 passes through glide machanism 77 horizontal slip, drive the bar magnet body 75 and go upward the roll at the cloth, thereby print down the large tracts of land colour on the cloth, after having printed, drive arrangement drive bar magnet removes screw 711 and rotates, the nut removes along with two rotations of bar magnet removal screw 711, drive first fixing base 72 and remove, thereby remove and absorb seat 74, remove to bar magnet body 75 top, adsorb the bar magnet body 75.
Example 2: a digital composite printing machine is different from the embodiment 1 in that referring to fig. 2, a second gluing system 10 is arranged on a cloth conveyor belt 4, the second gluing system 10 comprises a second glue placing groove 101, a fourth gluing roller 102 is arranged in the second glue placing groove 101, a fifth gluing roller 103 is tightly attached to the upper portion of the fourth gluing roller 102, a sixth gluing roller 104 is tightly attached to the fifth gluing roller 103, the fourth gluing roller 102, the fifth gluing roller 103 and the sixth gluing roller 104 are coaxially connected with a driving device, and the cloth conveyor belt 4 is tightly attached to the upper portion of the sixth gluing roller 104. The driving device drives the fourth gluing roller 102 to rotate, the fourth gluing roller 102 rotates to be stained with glue in the second glue discharging groove 101, and the glue on the fourth gluing roller is sequentially conveyed to the fifth gluing roller 103 and the sixth gluing roller 104, so that a glue layer can be thinned and uniformly coated on the cloth conveying belt 4. Through two rubberizing systems, can scribble different glue films on cloth conveyer belt 4, if to the cloth of chemical fibre class, can scribble oily glue, if to the cloth of cotton class, then can adopt aqueous glue.
Example 3: the utility model provides a digital composite printing machine, with embodiment 2 difference lies in, refer to fig. 2, place seat 21 upper end for circular recess to it has a plurality of balls 212 to inlay on the seat 21 to place, and the raw materials yardage roll is put on placing seat 211, can make the raw materials yardage roll through ball 211, thereby unreels the cloth.
The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a digital composite printing machine, includes frame (1), its characterized in that: the cloth feeding device is characterized in that a first section of cloth feeding system (2) used for feeding cloth into the rack (1) is connected onto the rack (1), a second section of cloth feeding system (3) is connected onto the first section of cloth feeding system (2), a cloth conveying belt (4) is arranged below the cloth feeding system, a scraper mechanism (5), a digital printing machine (6) and a magnetic bar printing mechanism (7) are sequentially arranged on the cloth conveying belt (4), and a first gluing system (8) and a glue washing device (9) are arranged below the cloth conveying belt (4);
magnetic bar printing mechanism (7) is including being fixed in first fixed arm (71) on frame (1), first fixed arm (71) both sides are slided and are connected with first fixing base (72), first fixing base (72) both sides are provided with piston rod direction and are decurrent first drive actuating cylinder (73), be provided with on the piston rod of first drive actuating cylinder (73) and absorb seat (74), it has magnetic bar body (75) to absorb seat (74) through electromagnetic force absorption, cloth conveyer belt (4) below is provided with magnetic base (76), magnetic base (76) are slided through glide machanism (77) and are connected with frame (1).
2. A digital composite decorating machine according to claim 1 wherein: scraper mechanism (5) are including being fixed in second fixed arm (51) on frame (1), second fixed arm (51) both sides are slided and are connected with second fixing base (52), second fixing base (52) both sides are provided with the piston rod direction and drive cylinder (54) for decurrent second, be provided with on the piston rod of second drive cylinder (54) and scrape the knife body (53).
3. A digital composite decorating machine according to claim 2 wherein: the sliding mechanism (77) comprises a first nut (771) below the magnetic seat (76), a first screw rod (772) rotatably connected with the rack (1) is connected with the first nut (771) in an internal thread mode, and a first servo motor (773) is coaxially connected with the first screw rod (772).
4. A digital composite decorating machine according to claim 3 wherein: digital printing machine (6) both sides are provided with second screw rod (61) parallel with cloth direction of transfer, second screw rod (61) rotate with frame (1) and are connected, second screw rod (61) coaxial coupling has second servo motor (62), second screw rod (61) threaded connection have with digital printing machine both sides fixed connection's second nut (63).
5. A digital composite printing machine according to claim 4, wherein: the first-section cloth feeding system (2) comprises a placing seat (21) for placing a raw material cloth roll, a first cloth feeding roller (22) and a second cloth feeding roller (23) which are rotatably connected with the rack (1) are arranged above the placing seat (21), the first cloth feeding roller (22) is attached to the second cloth feeding roller (23), the first cloth feeding roller (22) is coaxially connected with a cloth feeding motor (24), a recovery chamber (25) is arranged below the second cloth feeding roller (23), and the recovery chamber (25) comprises an arc-shaped recovery plate (251) and an infrared inductor (252) located on the arc-shaped recovery plate (251).
6. A digital composite printing machine according to claim 5, wherein: second section cloth feeding system (3) is including cloth feeding box (31), the top rotation is connected with parallel third cloth feeding roller (32) and fourth cloth feeding roller (33) in cloth feeding box (31), cloth feeding box (31) middle section internal rotation is connected with first expansion roller (34), cloth feeding box (31) below is provided with second expansion roller (35), third expansion roller (36) and fourth expansion roller (37), cloth feeding box (31) below is provided with trip wheel (38) of butt in cloth conveyer belt (4), trip wheel (38) and cloth feeding box (31) horizontal migration are connected.
7. A digital composite printing machine according to claim 6, wherein: and groove-type photoelectric sensors (361) are arranged on two sides of the third unfolding roller (36).
8. A digital composite decorating machine according to claim 7 wherein: first rubberizing system (8) are including first putting gluey groove (81), first putting is provided with first sizing roller (82) in gluey groove (81), second sizing roller (83) have been hugged closely to first sizing roller (82) top, third sizing roller (84) have been hugged closely to second sizing roller (83), first sizing roller (82), second sizing roller (83) and third sizing roller (84) equal coaxial coupling drive arrangement cloth conveyer belt (4) are hugged closely to third sizing roller (84) top.
9. A digital composite decorating machine according to claim 8 wherein: be provided with second rubberizing system (10) on cloth conveyer belt (4), second rubberizing system (10) are put gluey groove (101) including the second, the second is put and is provided with fourth rubberizing roller (102) in gluey groove (101), fifth rubberizing roller (103) have been hugged closely to fourth rubberizing roller (102) top, sixth rubberizing roller (104) have been hugged closely to fifth rubberizing roller (103), fourth rubberizing roller (102), fifth rubberizing roller (103) and the equal coaxial coupling drive arrangement of sixth rubberizing roller (104), cloth conveyer belt (4) are hugged closely to sixth rubberizing roller (104) top.
10. A digital composite embossing machine according to claim 9, characterized in that: wash mucilage binding and put (9) and include wash bowl (91), wash bowl (91) internal rotation is connected with live-rollers (92), live-rollers (92) coaxial coupling has washing motor (93), be provided with washing sponge (94) on live-rollers (92), washing sponge (94) butt is in cloth conveyer belt (4) below.
CN202020080827.9U 2020-01-14 2020-01-14 Digital composite printing machine Active CN211710330U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020080827.9U CN211710330U (en) 2020-01-14 2020-01-14 Digital composite printing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020080827.9U CN211710330U (en) 2020-01-14 2020-01-14 Digital composite printing machine

Publications (1)

Publication Number Publication Date
CN211710330U true CN211710330U (en) 2020-10-20

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Application Number Title Priority Date Filing Date
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Country Link
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