CN214111946U - Digital printer with dust collection structure - Google Patents

Abstract

The application relates to a digital printer with dust collection structure, which comprises a frame, a printing system, be provided with dust absorption mechanism in the frame, dust absorption mechanism includes the suction box, the dust absorption pipe, the dust absorption fan, the dust absorption frame, the suction box sets up in the frame, the dust absorption pipe sets up in the frame and the mouth of pipe towards the raw materials and be located raw materials feeding one side, the dust absorption fan sets up on the suction box, the dust absorption frame sets up on the suction box and is located between dust absorption pipe and the dust absorption fan and the air vent has been seted up to the equipartition. This application has and starts through the dust absorption fan, and impurity on the raw materials is collected in removing the dust absorption frame through the dust absorption pipe, has reduced the quantity of impurity on the raw materials to reduced the probability that the pattern of printing adheres on impurity and drops, improved the printing quality of printer.

Description

Digital printer with dust collection structure

Technical Field

The application relates to the technical field of digital printers, in particular to a digital printer with a dust collection structure.

Background

The digital printer, also known as universal flat-bed printer or arc printer, can print any material and irregular soft and hard objects. The digital printer prints high-security color images on the surface of a material without directly contacting the material, ensures the integrity of the printed material, prints and dyes in an 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 a direct output printing mode of a computer.

Among the correlation technique, can refer to the chinese utility model patent that the grant bulletin number is CN206327008U, it discloses a digital printer, which comprises a frame, with frame fixed connection's slide rail and with sliding connection spout the seal system, spout the seal system including be used for spout the nozzle of seal and with slide rail sliding connection's shell, the bottom of shell is being penetrated to the bottom and the nozzle of nozzle connection shell, the outside that the shell is close to the nozzle is connected with exhaust case, the last exhaust fan of installing convulsions of exhaust case, exhaust case is provided with the bottom plate towards the shower nozzle, the bottom plate is provided with a plurality of air outlets, the discharge port is provided with the sponge piece. When printing, the exhaust fan starts, therefore unnecessary dyestuff fog carries out the suction through the air exit in the exhaust box in the blowout, has the remaining dyestuff fog of absorption that the sponge piece can be better in the air exit, carries out the discharge of fog through the notch relative with the air exit again. Therefore, the effect of reducing the influence of the mist generated by the dye on the definition of a printed product and improving the printing definition of the digital printer is achieved.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the raw materials get into the nozzle below and print, but the raw materials exposes in the air before getting into the nozzle below, is infected with some impurity such as dust or batting easily on the raw materials, and the pattern of printing on the raw materials can bond easily on impurity, and consequently these patterns that adhere to on impurity drop easily to the printing quality of printer has been reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve the printing quality of printer, this application provides a digital printer with dust collection structure.

The application provides a digital printer with dust collection structure adopts following technical scheme:

the utility model provides a digital printer with dust collection structure, includes the frame, sets up the printing system in the frame, be provided with dust absorption mechanism in the frame, dust absorption mechanism includes dust absorption case, dust absorption pipe, dust absorption fan, dust absorption frame, the dust absorption case sets up in the frame, the dust absorption pipe sets up in the frame and the mouth of pipe is towards the raw materials and is located raw materials feeding one side, the dust absorption fan sets up on the dust absorption case, the dust absorption frame sets up on the dust absorption case and is located between dust absorption pipe and the dust absorption fan and the air vent has been seted up to the equipartition.

Through adopting above-mentioned technical scheme, the raw materials passes dust absorption pipe and print system in proper order, and the dust absorption fan starts, and impurity on the raw materials is collected in removing the dust absorption frame through the dust absorption pipe, has reduced the quantity of impurity on the raw materials to reduced the pattern adhesion of printing and the probability that drops on impurity, improved the printing quality of printer.

Optionally, a sliding hole is formed in the dust collection box, the dust collection frame is arranged on the sliding hole in a sliding mode, a cover plate abutting against the dust collection box is arranged on the dust collection frame, and a fixing assembly for fixing the cover plate is arranged on the dust collection box.

Through adopting above-mentioned technical scheme, open fixed subassembly, the pulling apron is dismantled the dust absorption frame from the hole of sliding and is cleared up, after the clearance is accomplished, install the dust absorption frame on the hole of sliding for the apron is contradicted on the dust absorption case, closes fixed subassembly at last and fixes a position the dust absorption frame, has accelerated the speed that the air passes through the dust absorption frame, thereby has improved the collection effect of dust absorption frame to impurity, has reduced the quantity that impurity exists on the raw materials, has improved the printing quality of printer.

Optionally, the fixed subassembly includes dead lever, fixed block, the dead lever rotates and sets up on the suction box, the fixed block sets up on the apron and offers and connects the complex joint groove with the dead lever joint.

By adopting the technical scheme, the limiting rod is rotated to be separated from the clamping groove, and then the cover plate can be pulled to disassemble the dust collection frame; install the dust absorption frame on the hole that slides for the apron is contradicted on the dust absorption case, then rotates the gag lever post joint and installs on the joint groove, fixes a position the dust absorption frame with this.

Optionally, be provided with the dust collecting tube of being connected with the dust absorption pipe in the frame, the dust collecting tube both ends all stretch out the raw materials and just have seted up the dust collecting hole along raw materials width direction, dust collecting hole length is greater than raw materials width and towards the raw materials.

Through adopting above-mentioned technical scheme, the dust collecting hole has increased the absorptive scope to impurity on the raw materials, has improved the absorption effect of dust collecting tube to the impurity on the raw materials, has reduced the quantity that impurity exists on the raw materials.

Optionally, be provided with in the frame and carry out the flat exhibition mechanism of exhibition to the raw materials, exhibition flat mechanism is including exhibition flat screw rod, overspeed device tensioner, exhibition flat screw rod rotates to set up in the frame and is located dust absorption pipe and keeps away from printing system one side, set up two sections opposite screw threads of helix on the exhibition flat screw rod, overspeed device tensioner sets up in the frame and is used for carrying out the tensioning to the raw materials.

Through adopting above-mentioned technical scheme, the printing system below is passed behind the flat screw rod of level is walked around to the raw materials, consequently the flat screw rod of level comes to flatten the raw materials, and overspeed device tensioner tensions the raw materials simultaneously for the raw materials is hugged closely on flat screw rod of level, thereby has improved the flat effect of exhibition of tensioning screw rod to the raw materials, has improved the absorption effect to impurity on the raw materials with this, has reduced the quantity of impurity on the raw materials, has improved the printing quality of printer.

Optionally, the tensioning device includes a slide way, a roller and a tensioning roller, the slide way is arranged on the frame and is in an inclined state, the roller rolls on the slide way, and the tensioning roller is rotatably arranged on the roller.

Through adopting above-mentioned technical scheme, the tensioning roller is walked around to the raw materials, therefore the tensioning roller supports under the effect of gravity and presses on the raw materials, and the gyro wheel rolls on the slide simultaneously, and the tensioning roller rotates with the gyro wheel to be connected, has consequently reduced the frictional force between gyro wheel and the slide, has reduced the loss of power, has improved the tensioning effect of tensioning roller to the raw materials.

Optionally, a blocking plate for blocking the roller is arranged on the slideway.

Through adopting above-mentioned technical scheme, the barrier plate comes to block the gyro wheel, consequently when raw materials and tensioning roller contactless, has reduced the probability that the tensioning roller dropped from the slide to so that the raw materials bypasses the tensioning roller when changing the raw materials.

Optionally, the printing system includes slide rail, shell, dye-box, mobile device, the slide rail sets up in the frame, the shell slides and sets up on the slide rail, the dye-box sets up on the shell and is provided with the nozzle of wearing out outside the shell, the mobile device sets up in the frame and is used for driving the shell and removes.

Through adopting above-mentioned technical scheme, the mobile device starts to drive the shell and removes, and the dyestuff in the dyestuff box passes through the nozzle blowout simultaneously to this prints the raw materials, thereby realizes printing the raw materials.

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

1. the dust collection fan is started, impurities on the raw materials are moved into the dust collection frame through the dust collection pipe to be collected, the quantity of the impurities on the raw materials is reduced, the probability that printed patterns are adhered to the impurities and fall off is reduced, and the printing quality of the printer is improved;

2. the fixed assembly is opened, the dust collection frame is detached for cleaning, after cleaning is completed, the dust collection frame is installed on the sliding hole, and the fixed assembly is closed to position the dust collection frame, so that the speed of air passing through the dust collection frame is increased, the effect of the dust collection frame on collecting impurities is improved, the quantity of the impurities on the raw materials is reduced, and the printing quality of the printer is improved;

3. the raw material bypasses the flattening screw rod and then passes through the lower part of the printing system, so that the flattening screw rod flattens the raw material, meanwhile, the tensioning roller presses the raw material under the action of gravity to tension the raw material,

the flattening effect of the tensioning screw on the raw material is improved, so that the absorption effect of impurities on the raw material is improved, the quantity of the impurities on the raw material is reduced, and the printing quality of the printer is improved.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic structural view of the present application, with one of the racks omitted;

FIG. 3 is a schematic view of the tensioner and suction mechanism of the present application;

fig. 4 is a partial exploded view of the present application, showing primarily the securing assembly.

Reference numerals: 1. a frame; 11. a feeding roller; 12. a material receiving roller; 13. a guide roller; 14. mounting a plate; 15. an input roller; 16. a dust collecting pipe; 17. a dust collecting hole; 2. a flattening mechanism; 21. flattening the screw rod; 22. a tensioning device; 23. a slideway; 231. a fixing plate; 2311. a blocking plate; 232. a limiting plate; 24. a roller; 25. a tension roller; 3. a printing system; 31. a slide rail; 32. a housing; 33. a cartridge; 331. a nozzle; 4. a dust suction mechanism; 41. a dust collection box; 411. mounting holes; 412. a sliding hole; 413. fixing a column; 42. a dust collection pipe; 43. a dust collection fan; 44. a dust collection frame; 441. a cover plate; 5. a fixing assembly; 51. fixing the rod; 52. a fixed block; 53. a clamping groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a digital printer with a dust collection structure.

Referring to fig. 1, the digital printer with a dust collection structure comprises two frames 1, wherein the two frames 1 are horizontally arranged at intervals, and mounting plates 14 are integrally arranged at the top ends of the two frames 1; the last rotation of frame 1 installs the material loading roller 11 and the receipts material roller 12 that the axis is parallel to each other, and material loading roller 11 and receipts material roller 12 horizontal interval set up, and it has the raw materials of waiting to print to coil on the material loading roller 11, receives the raw materials after the material roller 12 is used for convoluteing the printing, and material loading roller 11 is located and receives material roller 12 and is close to mounting panel 14 one side simultaneously, and fixed mounting has the rolling motor (not shown in the figure) of being connected with receipts material roller 12 on the frame 1.

Referring to fig. 2, the side walls of the two frames 1 on the opposite sides are rotatably provided with input rollers 15, the axial direction of the input rollers 15 is parallel to the axial direction of the material receiving roller 12, the input rollers 15 are positioned below the material receiving roller 12 and are horizontally arranged at intervals, and the input rollers 15 are arranged below the material receiving roller 12 and the mounting plate 14.

Referring to fig. 1, the mounting plate 14 is provided with a printing system 3, the printing system 3 includes a sliding rail 31, a housing 32, a cartridge 33, and a moving device (not shown in the figure), the sliding rail 31 is fixedly mounted on the side wall of the opposite side of the two mounting plates 14, the sliding rail 31 is located above the feeding roller 11 and is in a horizontal state, and the length direction of the sliding rail 31 is parallel to the axial direction of the input roller 15.

Referring to fig. 1 and 2, a housing 32 is slidably mounted on the slide rail 31 along the length direction of the slide rail 31, and the lower surface of the housing 32 extends to the lower part of the slide rail 31; the dye box 33 is fixedly mounted on the top end of the shell 32, the dye box 33 is horizontally and uniformly distributed with a plurality of nozzles 331, the nozzles 331 penetrate out of the lower surface of the shell 32 are fixedly mounted on the dye box 33, the dye box 33 and the nozzles 331 are arranged in a one-to-one correspondence mode, the moving device is arranged on the rack 1 and used for driving the shell 32 to move, and the moving device comprises a moving screw and a moving motor.

Referring to fig. 1 and 2, the movable screw is rotatably mounted on the frame 1, an axis of the movable screw is parallel to a length direction of the slide rail 31, the movable screw passes through the slide rail 31 and is in threaded connection with the housing 32, and the movable motor is fixedly mounted on the frame 1 and is connected with the movable screw. Guide rollers 13 are rotatably mounted on the mounting plate 14 and located on two sides of the housing 32, the axes of the guide rollers 13 are parallel to the length direction of the slide rail 31, the guide rollers 13 are located above the feeding roller 11 and below the nozzle 331, and the two guide rollers 13 are located on the same horizontal plane. The stock is horizontal as it passes around the two guide rolls 13.

Referring to fig. 1 and 2, a flattening mechanism 2 for flattening the raw material is arranged on a rack 1, the flattening mechanism 2 comprises a flattening screw rod 21 and a tensioning device 22, the flattening screw rod 21 is rotatably mounted on the side wall of one side of each of two mounting plates 14, the axial direction of the flattening screw rod 21 is parallel to the axial direction of the guide roller 13, two sections of threads with opposite spiral lines are formed on the flattening screw rod 21, the flattening screw rod 21 is located between the feeding roller 11 and the guide roller 13 close to one side of the feeding roller 11, and the highest point of the flattening screw rod 21 and the highest point of the guide roller 13 are located on the same horizontal plane; a tensioning device 22 is arranged on the frame 1 and the tensioning device 22 tensions the stock.

Referring to fig. 1 and 3, the tensioning device 22 comprises a slideway 23, a roller 24 and a tensioning roller 25, wherein the slideway 23 is fixedly installed on the side wall of one side of each of the two frames 1, and the slideway 23 is located between the feeding roller 11 and the flattening screw 21 and below the flattening screw 21; the slideway 23 comprises two fixing plates 231 and two limiting plates 232, wherein the two fixing plates 231 are parallel to each other and are arranged obliquely downwards; the integrative setting of limiting plate 232 is kept away from the frame 1 at fixed plate 231 on one end, and two limiting plates 232 all protrude outside the lateral wall of two fixed plate 231 opposite sides.

Referring to fig. 1 and 3, the distance between the bottom ends of the fixing plates 231 and the flattening screws 21 is smaller than the distance between the top ends of the fixing plates 231 and the flattening screws 21, while the bottom ends of the two fixing plates 231 are fixedly mounted with stopper plates 2311. The roller 24 rolls on the side wall of the opposite side of the two fixing plates 231, and the limiting plate 232 limits the roller 24; the tensioning roller 25 is rotatably installed on the side wall of the opposite side of the two rollers 24, and when the raw material does not contact the tensioning roller 25, the tensioning roller 25 drives the rollers 24 to abut against the blocking plate 2311 under the action of gravity, and the blocking plate 2311 limits the rollers 24.

Referring to fig. 1 and 4, the mounting plates 14 are provided with a dust suction mechanism 4, the dust suction mechanism 4 includes a dust suction box 41, a dust suction pipe 42, a dust suction fan 43, and a dust suction frame 44, and the dust collection pipe 16 is fixedly mounted on the side wall of the opposite side of the two mounting plates 14.

Referring to fig. 2, the dust collection pipe 16 is positioned between the guide roller 13 and the housing 32 on the side close to the flattening screw 21, while the dust collection pipe 16 is positioned above the guide roller 13, and the length direction of the dust collection pipe 16 is parallel to the axial direction of the guide roller 13; the lower surface of the dust collecting pipe 16 is provided with a dust collecting hole 17 along the length direction of the dust collecting pipe 16, and the length of the dust collecting hole 17 is larger than the width of the raw material.

Referring to fig. 1 and 3, the dust box 41 is fixedly mounted on the side wall of the mounting plate 14, the dust box 41 is located above the dust collecting pipe 16, the dust collecting pipe 42 is fixedly mounted on the upper surface of the dust collecting pipe 16, one end of the dust collecting pipe 42 far away from the dust collecting pipe 16 is fixedly connected with the top end of the dust box 41, and two ends of the dust collecting pipe 42 are respectively communicated with the dust collecting hole 17 and the interior of the dust box 41; the side wall of the dust collection box 41 is provided with a mounting hole 411, the dust collection fan 43 is fixedly mounted on the mounting hole 411, and the air outlet of the dust collection fan 43 faces the outside of the dust collection box 41.

Referring to fig. 3 and 4, a sliding hole 412 is formed on the sidewall of the dust box 41 above the mounting hole 411, the dust collection frame 44 is slidably mounted on the sliding hole 412, and vent holes (not shown) are uniformly formed on the bottom wall of the dust collection frame 44. The dust collection frame 44 is fixedly provided with a cover plate 441 which is abutted to the outer side wall of the dust collection box 41, the dust collection box 41 is provided with a fixing component 5 which limits the cover plate 441, the fixing component 5 comprises a fixing rod 51 and a fixing block 52, and the two fixing components 5 are horizontally arranged at intervals.

The outer side wall of the dust collection box 41 is fixedly provided with two fixing columns 413 above the cover plate 441, and the two fixing columns 413 are horizontally arranged at intervals and are in a horizontal state; dead lever 51 rotates to be installed on fixed column 413, and fixed block 52 fixed mounting is on apron 441 upper surface, and fixed block 52 top is seted up with dead lever 51 joint complex joint groove 53, and joint groove 53 link up the relative both sides wall of fixed block 52, and dead lever 51 joint is installed on joint groove 53.

The working principle of the embodiment of the application is as follows:

tension roller 25 is walked around in proper order with the raw materials on the material loading roller 11, flat screw rod 21 of exhibition, then two guide rolls 13 are walked around to the raw materials, and make the raw materials pass through from dust collecting tube 16 and nozzle 331 below in proper order, then the raw materials is walked around a plurality of input rollers 15 and is convoluteed on the material receiving roller 12, the mobile motor starts to drive shell 32 and removes, the dyestuff in the dye box 33 sprays on the raw materials through nozzle 331 and prints the raw materials, the winding motor starts to take the material receiving roller 12 to rotate and convolutes the raw materials that have printed simultaneously, and the material receiving roller 12 rotates and drives the material loading roller 11 and rotates and carry out the material loading, print the raw materials with this.

When the raw materials are printed, the dust absorption fan 43 is started, impurities on the raw materials are collected in the dust absorption frame 44 through the dust absorption pipe 42, and the impurities adhered to the raw materials are reduced, so that the probability that printed patterns are adhered to the impurities and fall off is reduced, and the printing quality of the printer is improved. Simultaneously the tensioning roller 25 makes the raw materials hug closely on flat screw rod 21 of exhibition under the effect of gravity, and the raw materials removes and drives flat screw rod 21 of exhibition and rotate, and flat screw rod 21 of exhibition comes to flatten the raw materials, has reduced the probability of raw materials turn-up, has improved the absorption effect to impurity on the raw materials, has improved the printing quality of printer.

Rotate dead lever 51 and break away from joint groove 53, pulling apron 441 dismantles dust absorption frame 44, then clear up the impurity in the dust absorption frame 44, install dust absorption frame 44 on sliding hole 412 next, make apron 441 contradict to collect the case on, rotate dead lever 51 joint and install on joint groove 53, with this speed that has improved the air and pass through dust absorption frame 44, the collection effect of dust absorption frame 44 to impurity has been improved, the quantity that impurity exists on the raw materials has been reduced, the printing quality of printer has been improved.

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 digital printer with dust collection structure, includes frame (1), printing system (3) of setting in frame (1), its characterized in that: be provided with dust absorption mechanism (4) on frame (1), dust absorption mechanism (4) are including suction box (41), dust absorption pipe (42), dust absorption fan (43), dust absorption frame (44), suction box (41) sets up on frame (1), dust absorption pipe (42) set up on frame (1) and the mouth of pipe is towards the raw materials and be located raw materials feeding one side, dust absorption fan (43) set up on suction box (41), dust absorption frame (44) set up on suction box (41) and are located between dust absorption pipe (42) and dust absorption fan (43) and the air vent has been seted up to the equipartition.

2. The digital printer with a dust suction structure according to claim 1, wherein: seted up sliding hole (412) on dust collection box (41), dust absorption frame (44) slide and set up on sliding hole (412), be provided with apron (441) of contradicting on dust collection box (41) on dust collection frame (44), be provided with on dust collection box (41) and carry out fixed subassembly (5) fixed to apron (441).

3. The digital printer with a dust suction structure according to claim 2, wherein: fixed subassembly (5) include dead lever (51), fixed block (52), dead lever (51) are rotated and are set up on suction box (41), fixed block (52) set up on apron (441) and offer with dead lever (51) joint complex joint groove (53).

4. The digital printer with a dust suction structure according to claim 1, wherein: be provided with on frame (1) dust collection pipe (16) of being connected with dust absorption pipe (42), dust collection pipe (16) both ends all stretch out the raw materials and have seted up dust collecting hole (17) along raw materials width direction, dust collecting hole (17) length is greater than raw materials width and towards the raw materials.

5. The digital printer with a dust suction structure according to claim 1, wherein: be provided with on frame (1) and carry out the flat exhibition mechanism (2) of exhibition to the raw materials, exhibition mechanism (2) is including exhibition flat screw rod (21), overspeed device tensioner (22), exhibition flat screw rod (21) rotate to set up in frame (1) and lie in dust absorption pipe (42) and keep away from printing system (3) one side, set up two sections opposite screw threads of helix on exhibition flat screw rod (21), overspeed device tensioner (22) set up in frame (1) and are used for carrying out the tensioning to the raw materials.

6. The digital printer with a dust suction structure according to claim 5, wherein: overspeed device tensioner (22) include slide (23), gyro wheel (24), tensioning roller (25), slide (23) set up in frame (1) and be the tilt state, gyro wheel (24) roll on slide (23), tensioning roller (25) rotate to set up on gyro wheel (24).

7. The digital printer with a dust suction structure according to claim 6, wherein: and a blocking plate (2311) for blocking the roller (24) is arranged on the slide way (23).

8. The digital printer with a dust suction structure according to claim 1, wherein: printing system (3) include slide rail (31), shell (32), dyestuff box (33), mobile device, slide rail (31) set up in frame (1), shell (32) slide and set up on slide rail (31), dyestuff box (33) set up on shell (32) and be provided with nozzle (331) outside wearing out shell (32), the mobile device sets up in frame (1) and is used for driving shell (32) and removes.

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