CN216001881U - High-efficient inkjet calico printing machine - Google Patents

Abstract

The application discloses a high-efficiency ink-jet printing machine, relates to the field of cloth printing equipment, in particular to a high-efficiency ink-jet printing machine, which comprises an ink jet mechanism, a transmission device and a machine body device, wherein the machine body device comprises a rack mechanism, the rack mechanism comprises a machine table, the transmission device comprises a transmission mechanism and a sorting mechanism, the transmission mechanism comprises a belt conveyor, band conveyer rotates to be connected in the board top, and arrangement mechanism is including erecting the clamp plate, erecting the cylinder, cross slab and horizontal cylinder, and the both ends sliding connection of cross slab is in the sliding shaft, erects the cylinder sliding connection and has telescopic cylinder, and telescopic cylinder can follow the axial direction slip of sliding shaft, and telescopic cylinder's one end fixed connection is in erecting the clamp plate, and telescopic cylinder can follow the direction that the perpendicular to erected the clamp plate and stretch out and draw back, erects the clamp plate and all can support in band conveyer with the cross slab, and ink jet printing is carried out to the cloth on the band conveyer to ink jet printing mechanism. This application has along vertical and horizontal the paving of cloth, makes the effect that stamp product quality improves.

Description

High-efficient inkjet calico printing machine

Technical Field

The application relates to the field of cloth printing equipment, in particular to a high-efficiency ink-jet printing machine.

Background

The ink-jet printing machine is a printing device which transmits pattern data to a printer through a computer, the printer directly sprays and prints on an object according to the data, the object does not need to be contacted in the process, the ink-jet printing machine is mainly applied to printing and dyeing of clothing and fabrics, sample proofing and product batch production in the textile industry play a role in rapid sample production, and the processing cost is reduced by times.

When the existing ink-jet printing machine is used, because curled cloth has turned edges and wrinkles, if direct printing is carried out, the cloth has printing defects at the turned edges and the wrinkles, so that the defective rate of printing is high, and the quality of printed products is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the quality of printing product, this application provides a high-efficient inkjet printing machine.

The application provides a high-efficient inkjet printing machine adopts following technical scheme:

an efficient ink-jet printing machine comprises a machine body device, a transmission device and an ink-jet mechanism for ink-jet printing on cloth, the machine body device comprises a machine frame mechanism, the machine frame mechanism comprises a machine table, the transmission device comprises a transmission mechanism and a sorting mechanism, the transmission mechanism comprises a belt conveyor, the belt conveyor is rotationally connected with the top of the machine table, the arrangement mechanism comprises a fixing component and a paving component, the fixing component comprises a transverse pressing plate and a transverse cylinder, two ends of the transverse pressing plate are fixedly connected with a shaft of the transverse cylinder, the transverse pressing plate is arranged along the conveying direction vertical to the belt conveyor, the transverse pressing plate is stressed on the transverse cylinder to tightly press the cloth on the surface of the belt conveyor, the paving assembly comprises a vertical pressing plate, a vertical cylinder and a telescopic cylinder, wherein the vertical cylinder drives the vertical pressing plate to move along the vertical direction and is used for abutting against the cloth, and the telescopic cylinder drives the vertical pressing plate to move along the direction perpendicular to the cloth conveying direction and is used for flattening the cloth.

Through adopting above-mentioned technical scheme, horizontal clamp plate tightly supports the cloth in band conveyer, and the cloth continues to make the length direction of cloth paved by the dish forward transport, erects the clamp plate and tightly supports the cloth in band conveyer and along cloth width direction removal make the width direction of cloth paved.

Optionally, the body device further comprises a moving mechanism, the moving mechanism comprises a slide rail, the slide rail is located right above the belt conveyor and perpendicular to the conveying direction of the belt conveyor, and the ink jet mechanism is connected to the slide rail in a sliding manner.

Through adopting above-mentioned technical scheme, the slide rail is used for making inkjet mechanism remove on band conveyer width direction and carry out the inkjet to the cloth.

Optionally, the inkjet mechanism includes a nozzle assembly and an ink cartridge, the nozzle assembly includes a nozzle and an ink tube, the ink tube is communicated between the nozzle and the ink cartridge, and the nozzle can spray ink in the ink cartridge to the belt conveyor through the ink tube.

By adopting the technical scheme, the ink-jet mechanism jets ink to the cloth through the spray head and the ink box.

Optionally, transport mechanism includes drive assembly, drive assembly still includes the tensioning roller, air-dries roller and discharge roller, tensioning roller, air-dries roller and discharge roller all are located the inside and rotate the lateral wall of connecting in the board of board, and the tensioning roller sets up in the bottom of band conveyer ejection of compact department, and the discharge roller sets up in the tensioning roller below, and the air-dries roller sets up in the one side that the ejection of compact department was kept away from to band conveyer and is located between tensioning roller and the discharge roller.

Through adopting above-mentioned technical scheme, it can make the cloth that just has printed be expanded to be arranged between tensioning roller, air-dry roller and the discharge roller "<" type, makes the air-dry that the cloth can be faster.

Optionally, the conveying mechanism further comprises a storage assembly, the storage assembly comprises a discharging roller and a receiving roller, the discharging roller is arranged on one side of the feeding position of the belt conveyor, and the receiving roller is arranged between the discharging roller and the machine table.

By adopting the technical scheme, the square material roller is used for transferring the cloth to be printed into the belt conveyor, and the material receiving roller is used for receiving the cloth coming out of the machine table after printing.

Optionally, the fuselage device still includes dry mechanism, and dry mechanism includes the fan, the fan is connected in the board and is close to one side of tensioning roller, and the roller is air-dried to the air outlet orientation of fan, and the air intake connection of fan has the filter screen.

By adopting the technical scheme, the fan is used for air-drying the expanded cloth in the machine table, and the filter screen blocks sundries in the air from entering the machine table.

Optionally, the rack mechanism further comprises a dust cover, the dust cover is fixedly connected to the machine platform and covers the belt conveyor and the ink jet mechanism, and a sliding window is arranged on one side of the dust cover.

Through adopting above-mentioned technical scheme, the reducible inside printing environment of dust cover receives external factor's influence, opens the sliding window and can carry out work in the dust cover.

Optionally, a brush roller is arranged in the machine table and located below the feeding position of the belt conveyor.

Through adopting above-mentioned technical scheme, the cotton fibre that the brush roller can be glued from the cloth on the band conveyer is scraped off.

In summary, the present application includes at least one of the following beneficial technical effects:

the cloth can be paved vertically and horizontally before printing, so that the printing quality is improved;

the fan and the transmission assembly enable the printed cloth to be quickly dried;

the brush roller can scrape cotton wool stuck on the belt conveyor.

Drawings

FIG. 1 is a block diagram of an efficient inkjet printing machine according to an embodiment of the present disclosure.

FIG. 2 is a structural diagram of an ink-jet mechanism of a high-efficiency ink-jet printing machine according to an embodiment of the present application.

Fig. 3 is a structural diagram of a moving mechanism of a high-efficiency inkjet printing machine according to an embodiment of the present application.

Fig. 4 is a diagram of an internal structure of a machine of an efficient inkjet printing machine according to an embodiment of the present application.

FIG. 5 is a top view of an efficient inkjet printing machine according to an embodiment of the present disclosure.

Description of reference numerals:

a. a fuselage apparatus; b. a transmission device; 1. a frame mechanism; 11. a machine platform; 12. a dust cover; 121. a sliding window; 13. a brush roller; 131. a cotton wool box; 132. scraping a blade; 2. a transport mechanism; 21. a belt conveyor; 22. a transmission assembly; 221. a tension roller; 222. air drying the roller; 223 a discharge roller; 23. a receiving assembly; 231. a discharge roller; 232. a material receiving roller; 3. a sorting mechanism; 31. a fixing assembly; 311. a transverse pressing plate; 312. a transverse cylinder; 32. a paving assembly; 321. a vertical pressing plate; 322. a vertical cylinder; 323. a telescopic cylinder; 4. a moving mechanism; 41. a slide rail; 42. a top slide rail; 5. an ink jet mechanism; 51. a showerhead assembly; 511. a spray head; 512. an ink tube; 52. an ink cartridge; 53. a sliding wheel; 54. a slide bar; 6. a drying mechanism; 61. a fan; 62. a filter screen; 63. an air guide member.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses high-efficient inkjet printing machine. Referring to fig. 1, a high-efficient inkjet calico printing machine includes fuselage device a, transmission device b and inkjet mechanism 5, fuselage device a includes rack mechanism 1, moving mechanism 4 and drying mechanism 6, transmission device b includes transport mechanism 2 and arrangement mechanism 3, inkjet mechanism 5 is used for carrying out the stamp to the cloth, rack mechanism 1 is used for bearing inkjet mechanism 5 and transmission device b, moving mechanism 4 is used for making inkjet mechanism 5 remove in cloth width direction, drying mechanism 6 is used for air-drying the cloth that has just printed, transport mechanism 2 is used for the transmission cloth, arrangement mechanism 3 is used for making the cloth all paved at vertical direction and horizontal.

Referring to fig. 2, the rack mechanism 1 includes a machine platform 11 and a dust cover 12, the dust cover 12 is fixedly connected to an edge of the machine platform 11, the dust cover 12 is surrounded by transparent glass and can be viewed inside, the moving mechanism 4 includes a sliding rail 41 and a top sliding rail 42 parallel to each other in the length direction, two ends of the sliding rail 41 are respectively fixed to two sides of the machine platform 11, the sliding rail 41 is located right above the middle of the machine platform 11, the top sliding rail 42 is fixedly connected to the top inside the dust cover 12 and right opposite to the inkjet mechanism 5, the sliding rail 41 penetrates through and is slidably connected to the bottom of the inkjet mechanism 5, the bottom of the inkjet mechanism 5 is rotatably connected to a sliding wheel 53, the sliding wheel 53 slides in the sliding rail 41, the top of the inkjet mechanism 5 is fixedly connected to a sliding rod 54, one end of the sliding rod 54 is slidably connected to the top sliding rail 42, and the inkjet mechanism 5 can slide along the length direction of the sliding rail 41.

Referring to fig. 3, the inkjet mechanism 5 includes a head module 51 and an ink cartridge 52, the head module 51 includes a head 511 and an ink tube 512, the ink tube 512 is connected between the head 511 and the ink cartridge 52, the head 511 can eject the ink in the ink cartridge 52 toward the belt conveyor 21 through the ink tube 512, one surface of the dust cover 12 is provided with a sliding window 121 in a penetrating and moving manner, and the ink cartridge 52 can be replaced by opening the sliding window 121.

Referring to fig. 4, the conveying mechanism 2 includes a belt conveyor 21 and a transmission assembly 22, a frame of the belt conveyor 21 is fixedly connected to the machine table 11, a belt surface of the belt conveyor 21 is higher than or equal to an upper surface of the machine table 11, the transmission assembly 22 includes a tension roller 221, an air drying roller 222 and a discharge roller 223 which are all parallel in an axial direction, the tension roller 221, the air drying roller 222 and the discharge roller 223 are all located inside the machine table 11 and rotatably connected to a side wall inside the machine table 11, the tension roller 221 is disposed on one side of the bottom of the belt conveyor 21 close to the drying mechanism 6, the discharge roller 223 is disposed below the tension roller 221, the air drying roller 222 is disposed on one side of the bottom of the belt conveyor 21 far away from the drying mechanism 6 and located between the tension roller 221 and the discharge roller 223, and a central connecting line of the tension roller 221, the air drying roller 222 and the discharge roller 223 forms a triangle.

Referring to fig. 4, the drying mechanism 6 includes a fan 61, the fan 61 is disposed on one side of the machine table 11 near the discharge position of the belt conveyor 21, an air guide 63 is installed at an air outlet of the fan 61, a vertical cross section of the air guide 63 is trapezoidal, an air outlet of the fan 61 blows out fan-shaped air from the air drying roller 222 through the air guide 63 for drying cloth, an air inlet of the fan 61 is connected with a filter screen 62, and the filter screen 62 can filter dust in air.

Referring to fig. 4, a brush roller 13 is connected in the machine 11, the brush roller 13 is arranged at the bottom of the feeding position of the belt conveyor 21 and supports against the bottom surface of the belt conveyor 21, the brush roller 13 can scrape down cotton wool adhered to the belt conveyor 21 due to cloth conveying, a cotton wool box 131 is arranged below the brush roller 13, the cotton wool box 131 is detachably connected to the inner wall of the machine 11 through bolt threads, a scraping blade 132 is fixedly connected to the outer wall of the brush roller 13 in the cotton wool box 131 and abuts against the cotton wool on the brush roller 132, and the cotton wool box 131 can accept the dropped cotton wool.

Referring to fig. 4, the conveying mechanism 2 further includes an accommodating assembly 23, the accommodating assembly 23 includes an emptying roller 231 and a receiving roller 232, the emptying roller 231 is located on one side of a feed inlet of the belt conveyor 21, the receiving roller 232 is located between the emptying roller 231 and the machine table 11, the emptying roller 231 is higher than the receiving roller 232 in height, the cloth of the emptying roller 231 can be transmitted to the belt conveyor 21, the receiving roller 232 can accommodate the cloth transmitted by the discharging roller 223, and the emptying roller 231 and the receiving roller 232 are driven to rotate by a motor.

Referring to fig. 5, the arranging mechanism 3 includes a fixing component 31 and a paving component 32, the fixing component 31 includes a transverse pressing plate 311 and two transverse cylinders 312, the transverse cylinders 312 are respectively fixed at two ends of one side of the machine table 11 close to the discharging roller 231, an axis of the transverse cylinder 312 is vertical and perpendicular to the surface of the machine table 11, the transverse pressing plate 311 is in a rectangular plate shape, a length direction of the transverse pressing plate 311 is parallel to the top sliding rail 42, two ends of the transverse pressing plate 311 are respectively and fixedly connected to an axis of one of the transverse cylinders 312, the transverse pressing plate 311 can move along an axial direction of the transverse cylinder 312, the transverse pressing plate 311 can support against the surface of the belt conveyor 21 to fix the cloth, and the transverse pressing plate 311 plays a role in spreading the cloth along a length direction thereof. The paving component 32 comprises two vertical pressing plates 321, four vertical cylinders 322 and four telescopic cylinders 323, the vertical cylinders 322 are respectively fixed at positions, close to four corners, of the machine table 11, the shafts of the vertical cylinders 322 are vertical and perpendicular to the upper surface of the machine table 11, the side walls of the telescopic cylinders 323 are fixedly connected to the shafts of the vertical cylinders 322, the length directions of the vertical pressing plates 321 are perpendicular to the top sliding rails 42 and are respectively arranged on two sides of the width direction of the belt conveyor 21, the shafts of the telescopic cylinders 323 are parallel to the length directions of the top sliding rails 42 and are perpendicular to the shafts of the vertical cylinders 322, the telescopic cylinders 323 can move along the vertical directions along with the shafts of the vertical cylinders 322, two ends of each vertical pressing plate 321 are respectively and fixedly connected to the shaft of one of the telescopic cylinders 323, the vertical pressing plates 321 are all arranged below the sliding rails 41, and the vertical pressing plates 321 can move along the axial directions of the telescopic cylinders 323.

The implementation principle of the high-efficiency ink-jet printing machine in the embodiment of the application is as follows: the cloth is wound on the discharging roller 231, then the cloth is placed on the belt conveyor 21, the belt conveyor 21 transmits the cloth from the feeding position to the discharging position, the cloth transmitted from the discharging position of the belt conveyor 21 passes through the bottom of the tensioning roller 221, then passes through the bottom of the air drying roller 222 by bypassing the air drying roller 222, then passes through the bottom of the discharging roller 223 by bypassing the discharging roller 223, and finally is transmitted from the opening of the machine table 11 to the material receiving roller 232 to be received by the material receiving roller 232, at this time, the transverse pressing plate 311 moves towards the belt conveyor 21 and abuts against the belt conveyor 21 and fixes the cloth on the belt conveyor 21, the belt conveyor 21 continues to transmit towards the transmitting direction until the cloth is paved along the length direction, then the telescopic cylinder 323 moves towards the direction of the belt conveyor 21 so that the vertical pressing plate 321 also moves towards the belt conveyor 21, the telescopic cylinder 323 moves towards the axial direction of the vertical cylinder 322 so that the vertical pressing plate 321 abuts against the belt conveyor 21, then the transverse press plate 311 moves back to the belt conveyor 21 to be loosened, the telescopic air cylinder 323 moves back to the belt conveyor 21 to enable the vertical press plate 321 to flatten the cloth along the width direction of the cloth, and finally the transverse press plate 311 fixes the cloth to the belt conveyor 21. Starting the ink jet mechanism 5, the ink jet mechanism 5 moving back and forth along the length direction of the slide rail 41 and the ink jet mechanism 5 spraying the ink of the ink box 52 to the cloth on the belt conveyor 21 through the nozzle 511, after the printing is finished, the transverse press plate 311 and the vertical press plate 321 moving away from the belt conveyor 21, the telescopic cylinder 323 moving back to the original position, the ink jet mechanism 5 returning to the original position, the belt conveyor 21 conveying the cloth with the printing finished to the tension roller 221, the tension roller 221 and the air drying roller 222 rotating together to convey the cloth with the printing finished to the position of the air outlet of the fan 61, the fan 61 drying the cloth with the printing finished, at this time, the belt conveyor 21 continuously conveying the cloth with the printing finished to the lower part of the ink jet mechanism 5, at this time, the transverse press plate 311 and the vertical press plate 321 continuously fixing and paving the cloth, after the printing is finished, the belt conveyor 21 continuously conveying the cloth with the printing finished to the lower part of the ink jet mechanism 5, the cloth that the stamp was accomplished rotates through tensioning roller 221 and air-drying roller 222 together and carries the cloth that the stamp was accomplished to the position of fan 61 air outlet again, the cloth that just dried the completion rotates through discharge roller 223 and carries to receiving material roller 232 and be accomodate by receiving material roller 232, brush roller 13, scrape the cotton fibre on the band conveyer 21 that just carried the cloth and fall, doctor blade 132 scrapes the cotton fibre of brush roller 13 to cotton fibre box 131, if the ink in the ink horn 52 has run out, open sliding window 121 behind the machine and carry out the change of ink horn 52, open the machine again after the change completion and continue the stamp.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a high-efficient inkjet calico printing machine, includes fuselage device (a), transmission device (b) and is used for carrying out inkjet printing to the cloth inkjet mechanism (5), its characterized in that: fuselage device (a) includes frame mechanism (1), and frame mechanism (1) includes board (11), transmission device (b) includes transport mechanism (2) and arrangement mechanism (3), and transport mechanism (2) include band conveyer (21), band conveyer (21) set up in board (11) top, arrangement mechanism (3) are including fixed subassembly (31) and paving subassembly (32), fixed subassembly (31) are including horizontal clamp plate (311) and horizontal cylinder (312), and the both ends fixed connection of horizontal clamp plate (311) is in the axle of horizontal cylinder (312), and the direction of delivery of perpendicular to band conveyer (21) is followed in horizontal clamp plate (311), and horizontal clamp plate (311) atress supports the cloth tightly on the surface of band conveyer (21) in horizontal cylinder (312), paving subassembly (32) including erecting clamp plate (321), drive erect clamp plate (321) and move and be used for the perpendicular cylinder (322) of butt and drive of cloth erect clamp plate (321) along vertical direction ) A telescopic cylinder 323 for flattening the cloth is moved in a direction perpendicular to the cloth conveying direction.

2. A high efficiency ink jet printing machine as claimed in claim 1, wherein: fuselage device (a) still includes moving mechanism (4), and moving mechanism (4) include slide rail (41), slide rail (41) are located band conveyer (21) directly over and the direction of delivery setting of perpendicular to band conveyer (21), inkjet mechanism (5) sliding connection is in slide rail (41).

3. A high efficiency ink jet printing machine as claimed in claim 2, wherein: the ink jet mechanism (5) comprises a spray head assembly (51) and an ink box (52), the spray head assembly (51) comprises a spray head (511) and an ink pipe (512), the ink pipe (512) is communicated between the spray head (511) and the ink box (52), and the spray head (511) can spray ink in the ink box (52) to the belt conveyor (21) through the ink pipe (512).

4. A high efficiency ink jet printing machine as claimed in claim 1, wherein: transport mechanism (2) still include drive assembly (22), drive assembly (22) include tensioning roller (221), air-dry roller (222) and discharge roller (223), tensioning roller (221), air-dry roller (222) and discharge roller (223) all are located board (11) inside and rotate the lateral wall of connecting in board (11), and tensioning roller (221) set up in the bottom of band conveyer (21) ejection of compact department, and discharge roller (223) set up in tensioning roller (221) below, and air-dry roller (222) set up in band conveyer (21) keep away from one side of ejection of compact department and are located between tensioning roller (221) and discharge roller (223).

5. The high-efficiency ink-jet printing machine according to claim 4, wherein: the conveying mechanism (2) further comprises a storage assembly (23), the storage assembly (23) comprises a discharging roller (231) and a receiving roller (232), the discharging roller (231) is arranged on one side of the feeding position of the belt conveyor (21), and the receiving roller (232) is arranged between the discharging roller (231) and the machine table (11).

6. A high efficiency ink jet printing machine as claimed in claim 5, wherein: fuselage device (a) still includes drying mechanism (6), and drying mechanism (6) include fan (61), fan (61) are connected in board (11) and are close to one side of tensioning roller (221), and the air outlet of fan (61) is towards air-drying roller (222), and the air intake connection of fan (61) has filter screen (62).

7. A high efficiency ink jet printing machine as claimed in claim 1, wherein: frame mechanism (1) still includes dust cover (12), dust cover (12) fixed connection in board (11) and all cover belt conveyor (21) and inkjet mechanism (5) wherein, and one side of dust cover (12) is provided with sliding window (121).

8. A high efficiency ink jet printing machine as claimed in claim 1, wherein: a brush roller (13) is arranged in the machine table (11), and the brush roller (13) is located below the feeding position of the belt conveyor (21) and abuts against the bottom of a belt of the belt conveyor (21).

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