CN117445555A - Inkjet green digital printing device and printing process - Google Patents

Abstract

The invention relates to the technical field of printing equipment, in particular to an inkjet green digital printing device and a printing process. This green digital printing device of inkjet and printing technology drive the removal portion through the installation department to can directly remove green inkjet subassembly to the outside of control cabinet, make operating personnel can direct treatment, also remove towards the outside when rotating gear pivoted, promoted the flexible distance originally of electric putter one time, thereby reduced the specification of electric putter, reduced the input cost.

Description

Inkjet green digital printing device and printing process

Technical Field

The invention relates to the technical field of printing equipment, in particular to an inkjet green digital printing device and a printing process.

Background

The ink-jet green digital printing device is a modern printing device combining computer, digital image processing, electronic, mechanical, optical and other technologies, has the characteristics of plateless printing, on-demand printing, individuation, variable data printing and the like, and can meet the requirements of various short-plate, medium-plate and long-plate printing. The printing device not only can realize the printing effect of high definition and high resolution, but also can print on various printing materials with different materials, such as paper, cloth, plastics and the like. Because the ink is water-based ink, the printer is more environment-friendly and has no pollution.

The ink-jet mechanism in the ink-jet green digital printing device is a core component, the performance of the ink-jet mechanism directly influences the printing quality, but along with the increase of the service time, the ink-jet mechanism possibly influences the printing effect due to the problems of ink pollution, ink drying, nozzle blockage and the like, at the moment, an operator is required to overhaul and maintain the ink-jet mechanism, however, the ink-jet mechanism in most of the ink-jet green digital printing devices is arranged in a machine body except for an industrial-grade flat-plate ink-jet printer, the operator needs to take out the ink-jet mechanism in the complex device, and then take out screws on the outer shell of the ink-jet mechanism one by one through a screwdriver, so that the maintenance work can be carried out on the ink-jet head, and the time for putting the ink-jet green digital printing device into operation again is prolonged.

In view of this, we propose an inkjet green digital printing apparatus and printing process.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

The invention aims to provide an inkjet green digital printing device and a printing process, which are used for solving the problems in the background technology.

In order to achieve the above object, in one aspect, the present invention provides the following technical solutions:

the inkjet green digital printing device comprises a coiled material mechanism for moving and stretching a printing material and a printing machine body arranged on a horizontal line in front of the coiled material mechanism, wherein the printing machine body comprises a control console, a fixed bin arranged on the top surface of the control console and an air suction platform arranged in the control console;

the fixed bin comprises a fixed bin body with an open top, a sealing cover arranged in the open top of the fixed bin body, and a butt joint part arranged on the side wall of one end of the fixed bin body;

the ink jet device comprises a moving assembly, an installation part arranged on a moving bracket in the moving assembly, a moving part arranged on the front side wall of the installation part, a locking part arranged in the moving part, a green ink jet assembly arranged on the front side of the moving part and a dust prevention part sleeved outside the moving part;

the mounting part comprises a mounting plate, a fixed frame body arranged at the bottom of the front side wall of the mounting plate, an electric push rod arranged in the fixed frame body, a movable slide block arranged at the front end of the electric push rod and capable of moving laterally in the fixed frame body, a rotating gear arranged above the movable slide block and a frame top toothed plate arranged at the top of the inner side of the fixed frame body, wherein after the movable slide block moves laterally, the rotating gear is contacted with the frame top toothed plate to enable the rotating gear to rotate;

the movable part comprises a movable slide plate, a plate bottom toothed plate which is arranged below the movable slide plate and can drive the movable part to move laterally integrally after the rotary gear rotates, a fixed ring which is arranged at the center of the outer side wall of the movable slide plate, and a plurality of limiting blocks which are regularly arranged in the annular wall of the fixed ring;

the locking part comprises a rotating bracket, a plurality of locking rods which are arranged at the end part of the rotating bracket and rotate along with the rotating bracket to move up and down, and square blocks which are sleeved outside the locking rods and used for limiting the moving interval of the locking rods.

In the technical scheme of the invention, the fixed bin body is fixedly connected to the top surface of the control console through bolts, the front end of the side wall at one end of the fixed bin body is provided with a bin body slot which is internally and externally communicated, the sealing cover is hinged to the position of the opening at the top of the fixed bin body through a limiting hinge, and the air suction platform is slidably connected to the inside of the control console through a platform moving mechanism at the bottom.

In the technical scheme of the invention, the butt joint part comprises two butt joint sliding rods which are oppositely arranged and have L-shaped longitudinal sections, connecting plates welded and fixed at the outer side ends of the two butt joint sliding rods, a butt joint sliding frame welded and fixed on the inner side bottom surface of the connecting plates, an overhanging toothed plate integrally formed on the top surface of the rear end of the butt joint sliding frame, and two groups of fixing brackets welded and fixed on the rear side walls of the two butt joint sliding rods respectively, wherein the two butt joint sliding frames and the inner side ends of the butt joint sliding frame extend into the fixing bin body, and the fixing brackets are fixedly connected on the outer side wall of the fixing bin body through bolts.

In the technical scheme of the invention, the moving assembly is fixedly connected to the inner side wall of the fixed bin body through bolts, the mounting plate is fixedly connected with the moving support in the moving assembly through bolts, the front side wall of the mounting plate is provided with a limit slide block for limiting the sliding interval of the moving slide plate, the fixed frame body is fixedly welded to the bottom position of the front side wall of the mounting plate, the longitudinal section of the fixed frame body is concave, the electric push rod is fixedly connected to the inner side wall of the fixed frame body through bolts, the moving slide block is fixedly connected with the end part of the electric push rod through bolts, the moving slide block is slidably connected to the inside of the fixed frame body, the rotating gear is rotationally connected to the upper part of the moving slide block, the frame top toothed plate and the fixed frame body are integrally formed, and the toothed blocks at the end parts of the frame top toothed plate are meshed with the rotating gear.

In the technical scheme of the invention, a storage groove for placing the locking part is formed in the movable sliding plate, a limit groove communicated with the storage groove is formed in the corner position of the outer side wall of the movable sliding plate, the plate bottom toothed plate is fixedly welded with the movable sliding plate, and the plate bottom toothed plate is meshed with the rotating gear.

In the technical scheme of the invention, the fixed ring and the movable sliding plate are integrally formed, a plurality of regularly distributed storage holes are formed in the inner side annular wall of the fixed ring, the limiting block is slidably connected to the inside of the storage holes, the end part of the limiting block is hemispherical, a pressure spring is fixedly welded on the inner side wall of the limiting block, and the other end of the pressure spring is fixedly welded on the inner wall of the storage holes.

In the technical scheme of the invention, the rotating support is rotationally connected to the inside of the movable slide plate, end plate through grooves which are communicated front and back are formed at the end parts of the rotating support, a rotating ring is integrally formed at the center of the outer side wall of the rotating support, the rotating ring is rotationally connected to the inside of the fixed ring, and a plurality of ring wall openings matched with the size of the containing holes are formed in the outer side wall of the rotating ring.

In the technical scheme of the invention, the inner side end part of the locking rod is integrally provided with the rod body protruding block, the end part of the rod body protruding block is slidably connected to the inside of the through groove of the end plate, the locking rod is slidably connected to the inside of the square block, the other end of the locking rod extends to the outside of the dustproof part, and the square block is fixedly clamped in the inside of the movable sliding plate.

In the technical scheme of the invention, the dustproof part comprises a dustproof cover body and a fixed connecting plate integrally formed at the bottom position of the inner side wall at the rear end of the dustproof cover body, and locking grooves matched with the locking rod in size are formed in the corner positions of the outer side wall of the rear end of the dustproof cover body and the outer side wall of the fixed connecting plate.

On the other hand, the invention also provides an inkjet green digital printing process, which comprises the following steps:

1. preparation stage

S1, firstly, selecting a proper printing material according to actual use requirements, and fixing the printing material in a coiled material mechanism;

s2, dragging the printing material to the inside of the printer body through a manual matching coiled material mechanism, penetrating through the lower part of the ink jet device, and dragging the end part of the printing material to the inside of a winding mechanism at the front end of the printer body;

s2, transmitting pattern data to be printed to the inside of a console in a printer body through a data line by a computer;

2. printing material transport phase

S3, starting a coiled material mechanism and a winding mechanism at the front end of the printer body, and simultaneously starting an air suction platform in the printer body;

3. pattern printing stage

S4, starting a motor of a moving assembly in the ink jet device through a control console, driving a transmission belt in the moving assembly to move, and driving a moving bracket to do transverse reciprocating motion;

s5, along with the movement of the movable support, the movable part is driven to transversely reciprocate in the fixed bin, so that the green ink-jet component is driven to move back and forth above the printing material;

s6, the green ink-jet assembly controls the ink-jet heads with different colors in the assembly according to the data parameters processed by the control console, and green environment-friendly water-based ink is sprayed to the surface of the printing material, so that pattern printing is completed;

4. maintenance adjustment phase

S7, after the printer body works for a long time, starting the moving assembly to drive the mounting part to move to a position, close to a slot of the bin body, in the fixed bin, and ensuring that the mounting part is tightly attached to the abutting part;

s8, starting an electric push rod in the mounting part, driving the movable sliding block to transversely move in the fixed frame body and the butt joint sliding frame, and enabling the rotary gear to rotate after contacting with the frame top toothed plate and the overhanging toothed plate;

s9, along with the rotation of the rotating gear, driving the plate bottom toothed plate in the moving part and the moving part to transversely move towards the outer side of the bin body slot together;

s10, after the movable part integrally moves to the outer side of the bin body slot, the rotary ring in the locking part is twisted to drive the rotary bracket to rotate so as to drive the locking rod to shrink inwards;

s11, after the locking rod is contracted to the inside of the movable sliding plate, the whole dust cover body is taken out from the outer side of the movable sliding plate, and the ink jet head in the green ink jet assembly is directly overhauled and maintained.

Compared with the prior art, the invention has the beneficial effects that:

1. this green digital printing device of inkjet and printing technology drive the removal portion through the installation department to can directly remove green inkjet subassembly to the outside of control cabinet, make operating personnel can direct treatment, also remove towards the outside when rotating gear pivoted, promoted the flexible distance originally of electric putter one time, thereby reduced the specification of electric putter, reduced the input cost.

2. According to the inkjet green digital printing device and the printing process, the rotating ring in the locking part is twisted to drive the rotating bracket to rotate and drive the locking rod to shrink inwards, so that the dustproof cover body sleeved outside the movable sliding plate can be directly taken out, the process that an operator takes out a screw through a screwdriver is omitted, and the time for overhauling and maintaining the green inkjet assembly is further shortened.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the invention;

FIG. 2 is a schematic illustration of a portion of the structure of the invention;

FIG. 3 is a second schematic view of a portion of the structure of the invention;

FIG. 4 is a schematic view of the structure of the fixed bin of the invention;

FIG. 5 is a schematic view of a cross-section of the structure of the butt joint of the invention;

FIG. 6 is a schematic diagram of an ink jet device according to the present invention;

FIG. 7 is a schematic view showing a part of the structure of an ink jet device according to the present invention;

FIG. 8 is a schematic view of the structure of the mounting part of the invention;

FIG. 9 is a schematic view of a part of the structure of the mounting part in the invention;

FIG. 10 is a schematic diagram showing a partial structure of an ink jet device according to the second embodiment of the present invention;

FIG. 11 is a schematic view showing a cross-section of a moving part of the present invention;

FIG. 12 is an enlarged schematic view of part A of the invention;

FIG. 13 is a schematic view of a structure of a locking portion of the present invention;

fig. 14 is a schematic sectional view showing a structure of a dust-proof part in the invention.

Reference numerals illustrate:

a coiled material mechanism;

a printer body; 20. a console; 21. a fixed bin; 210. a fixed bin body; 2101. grooving the bin body; 211. sealing cover; 212. a butt joint part; 2120. butting a sliding rod; 2121. a connecting plate; 2122. a butt joint sliding frame; 2123. an overhanging toothed plate; 2124. a fixed bracket; 23. an air suction platform;

an ink jet device; 30. a moving assembly; 31. a mounting part; 310. a mounting plate; 311. a limit sliding block; 312. fixing the frame; 313. an electric push rod; 314. moving the slide block; 315. rotating the gear; 316. a frame top toothed plate; 32. a moving part; 320. a moving slide plate; 3201. a storage groove; 3202. a limit groove; 321. a plate bottom toothed plate; 322. a fixing ring; 3220. a receiving hole; 323. a pressure spring; 324. a limiting block; 33. a locking part; 330. rotating the bracket; 3301. the end plate is provided with a through groove; 331. a rotating ring; 3310. a ring wall opening; 332. a locking lever; 3320. a rod body bump; 333. square blocks; 34. a green inkjet assembly; 35. a dust-proof part; 350. a dust-proof cover body; 3501. a locking groove; 351. and fixing the connecting plate.

Detailed Description

The following description of the embodiments of the present invention will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 14, the present embodiment provides a technical solution:

the printing machine body 2 comprises a control console 20, a fixed bin 21 arranged on the top surface of the control console 20 and an air suction platform 23 arranged inside the control console 20;

in the invention, the fixed bin 21 comprises a fixed bin body 210 with an open top, a sealing cover 211 arranged in the open interior of the fixed bin body 210, and a butt joint part 212 arranged on the side wall of one end of the fixed bin body 210;

specifically, the fixed bin 210 is fixedly connected to the top surface of the console 20 through bolts, the front end of one side wall of the fixed bin 210 is provided with a bin slot 2101 which is internally and externally communicated, the sealing cover 211 is hinged to the position of the top opening of the fixed bin 210 through a limiting hinge, and the air suction platform 23 is slidably connected to the inside of the console 20 through a platform moving mechanism at the bottom.

Further, the docking portion 212 includes two docking slide bars 2120 disposed opposite to each other and having an L-shaped longitudinal section, a connection plate 2121 welded and fixed to the outer ends of the two docking slide bars 2120, a docking slide frame 2122 welded and fixed to the inner bottom surface of the connection plate 2121, an overhanging toothed plate 2123 integrally formed on the top surface of the rear end of the docking slide frame 2122, and two fixing brackets 2124 welded and fixed to the rear side walls of the two docking slide bars 2120, wherein the inner ends of the two docking slide frames 2122 and the docking slide frame 2122 extend into the interior of the fixing bin 210, and the fixing brackets 2124 are fixedly connected to the outer side walls of the fixing bin 210 through bolts.

Further, the console 20 is used for receiving and processing graphic data information, the fixed bin body 210 in the fixed bin 21 is used for ensuring the strength of the whole structure of the fixed bin 21, the bin body slot 2101 is used for providing a placing interval for the abutting part 212, the sealing cover 211 is used for ensuring the tightness of an inner space during printing, two abutting sliding rods 2120 in the abutting part 212 are used for providing a moving interval for the moving sliding plate 320 in the moving part 32, the connecting plate 2121 is used for providing a fixed platform for the abutting sliding frame 2122, the abutting sliding frame 2122 is used for providing a fixed platform for the overhanging toothed plate 2123, the fixed bracket 2124 is used for ensuring that the abutting part 212 can be fixed on the outer side wall of the fixed bin 21, and the air suction platform 23 is used for flattening the surface of a printing material after being started.

In this embodiment, as shown in fig. 6 to 9, the inkjet device 3 is disposed in the fixed bin 21, and the inkjet device 3 includes a moving assembly 30, a mounting portion 31 disposed on a moving bracket of the moving assembly 30, a moving portion 32 disposed on a front side wall of the mounting portion 31, a locking portion 33 disposed in the moving portion 32, a green inkjet assembly 34 disposed on a front side of the moving portion 32, and a dust-proof portion 35 sleeved outside the moving portion 32;

specifically, the mounting portion 31 includes a mounting plate 310, a fixed frame 312 disposed at a bottom position of a front sidewall of the mounting plate 310, an electric push rod 313 disposed inside the fixed frame 312, a moving slider 314 disposed at a front end position of the electric push rod 313 and capable of moving laterally inside the fixed frame 312, a rotating gear 315 disposed above the moving slider 314, and a frame top toothed plate 316 disposed at an inner top of the fixed frame 312, wherein when the moving slider 314 moves laterally, the rotating gear 315 contacts the frame top toothed plate 316, so that the rotating gear 315 rotates.

Further, the moving assembly 30 is fixedly connected to the inner side wall of the fixed bin body 210 through bolts, the mounting plate 310 is fixedly connected to the moving support in the moving assembly 30 through bolts, a limit sliding block 311 for limiting the sliding interval of the moving sliding plate 320 is arranged on the front side wall of the mounting plate 310, the fixed frame body 312 is welded and fixed to the bottom position of the front side wall of the mounting plate 310, the longitudinal section of the fixed frame body 312 is concave, the electric push rod 313 is fixedly connected to the inner side wall of the fixed frame body 312 through bolts, the moving sliding block 314 is fixedly connected to the end of the electric push rod 313 through bolts, the moving sliding block 314 is slidingly connected to the inside of the fixed frame body 312, the rotating gear 315 is rotationally connected to the upper portion of the moving sliding block 314, the frame top toothed plate 316 is integrally formed with the fixed frame body 312, and the toothed block at the end of the frame top toothed plate 316 is meshed with the rotating gear 315.

Further, after the motor in the moving assembly 30 is started, the transmission belt in the moving assembly 30 is driven to move, and the moving bracket is driven to reciprocate transversely, so that the moving part 32 is driven to reciprocate transversely in the fixed bin 21, the mounting plate 310 in the mounting part 31 is used for ensuring the integral strength of the mounting part 31, providing a fixed platform for the limiting slide block 311 and the fixed frame 312, and after the electric push rod 313 is started, the moving slide block 314 is driven to move transversely in the fixed frame 312 and the butting slide frame 2122, so that the rotating gear 315 and the frame top toothed plate 316 are contacted with the overhanging toothed plate 2123 to rotate, and the plate bottom toothed plate 321 in the moving part 32 is driven to move transversely along with the moving part 32 to the outer side of the bin body slot 2101.

In this embodiment, as shown in fig. 10-12, the moving part 32 includes a moving slide 320, a plate bottom toothed plate 321 disposed below the moving slide 320 and capable of driving the moving part 32 to move laterally as a whole after the rotation of the rotation gear 315, a fixed ring 322 disposed at the center of the outer sidewall of the moving slide 320, and a plurality of limiting blocks 324 regularly disposed inside the sidewall of the fixed ring 322;

specifically, the inside of the movable sliding plate 320 is provided with a storage groove 3201 for placing the locking portion 33, the corner position of the outer side wall of the movable sliding plate 320 is provided with a limit groove 3202 communicated with the storage groove 3201, the plate bottom toothed plate 321 is welded and fixed with the movable sliding plate 320, and the plate bottom toothed plate 321 is meshed with the rotating gear 315.

Further, the fixed ring 322 and the movable sliding plate 320 are integrally formed, a plurality of regularly distributed storage holes 3220 are formed in the inner annular wall of the fixed ring 322, the limiting block 324 is slidably connected in the storage holes 3220, the end portion of the limiting block 324 is hemispherical, the inner side wall of the limiting block 324 is fixedly welded with a pressure spring 323, and the other end of the pressure spring 323 is fixedly welded on the inner hole wall of the storage holes 3220.

Further, the moving slide 320 is used for providing a fixed platform for the green ink jet assembly 34, the limiting groove 3202 is used for providing a passing section for the locking lever 332, the plate bottom toothed plate 321 is used for contacting with the rotating gear 315 to drive the moving part 32 to move together as a whole, the accommodating hole 3220 in the fixed ring 322 is used for providing an accommodating space for the pressure spring 323 and the limiting block 324, the pressure spring 323 provides an external acting force for the limiting block 324 through self elasticity, and the limiting block 324 is used for limiting the position of the rotating ring 331 in the locking part 33.

In this embodiment, as shown in fig. 13, the locking part 33 includes a rotating bracket 330, a plurality of locking bars 332 disposed at the end of the rotating bracket 330 and rotating to move up and down, and a square block 333 sleeved outside the locking bars 332 for limiting the movement range of the locking bars 332;

specifically, the rotating bracket 330 is rotatably connected to the inside of the moving slide plate 320, the end portion of the rotating bracket 330 is provided with end plate through slots 3301 which are penetrated from front to back, the center of the outer side wall of the rotating bracket 330 is integrally formed with a rotating ring 331, the rotating ring 331 is rotatably connected to the inside of the fixed ring 322, and the outer side wall of the rotating ring 331 is provided with a plurality of ring wall openings 3310 which are matched with the storage holes 3220 in size.

Further, the inner end of the locking rod 332 is integrally formed with a rod protruding block 3320, the end of the rod protruding block 3320 is slidably connected to the inside of the end plate through slot 3301, the locking rod 332 is slidably connected to the inside of the square block 333, the other end of the locking rod 332 extends to the outside of the dust-proof portion 35, and the square block 333 is clamped and fixed inside the moving slide plate 320.

Further, the rotating bracket 330 is used for providing a fixed area for the rotating ring 331, the end plate through slot 3301 is used for providing a moving area for the rod body protrusion 3320 in the locking rod 332, the ring wall opening 3310 in the rotating ring 331 is matched with the limiting block 324 in the moving part 32, the position of the rotating ring 331 is ensured to be fixed, and the rotating ring 331 in the locking part 33 is twisted to drive the rotating bracket 330 to rotate so as to drive the locking rod 332 to retract inwards.

In the invention, the dust-proof part 35 comprises a dust-proof cover 350 and a fixed connecting plate 351 integrally formed at the bottom of the inner side wall of the rear end of the dust-proof cover 350, wherein locking grooves 3501 with the size matched with that of the locking rod 332 are formed at the corners of the outer side wall of the rear end of the dust-proof cover 350 and the outer side wall of the fixed connecting plate 351;

further, the dust cover 350 is used to ensure the overall structural strength of the dust-proof part 35, and simultaneously, the external dust is placed to fall into the green ink jet assembly 34, the locking slot 3501 is used to provide an insertion area for the locking lever 332, and the fixing connection plate 351 is used to further ensure the overall structural strength of the dust-proof part 35.

The invention relates to an inkjet green digital printing process, which comprises the following steps:

1. preparation stage

S1, firstly, selecting a proper printing material according to actual use requirements, and fixing the printing material in a coiled material mechanism 1;

s2, then, manually matching the coiled material mechanism 1 to draw the printing material into the printing machine body 2, penetrating the lower part of the ink jet device 3, and drawing the end part of the printing material into a coiling mechanism at the front end of the printing machine body 2;

s2, transmitting the pattern data to be printed to the inside of a console 20 in the printer body 2 through a data line by a computer;

2. printing material transport phase

S3, starting the coiled material mechanism 1 and a winding mechanism at the front end of the printer body 2, and simultaneously starting an air suction platform 23 in the printer body 2;

3. pattern printing stage

S4, starting a motor of the moving assembly 30 in the ink jet device 3 through the control console 20, driving a transmission belt in the moving assembly 30 to move, and driving the moving bracket to do transverse reciprocating motion;

s5, along with the movement of the movable support, the movable part 32 is driven to transversely reciprocate in the fixed bin 21, so that the green ink jet assembly 34 is driven to move back and forth above the printing material;

s6, the green ink-jet assembly 34 controls the ink-jet heads with different colors in the assembly according to the data parameters processed by the console 20, and green environment-friendly water-based ink is sprayed to the surface of the printing material, so that pattern printing is completed;

4. maintenance adjustment phase

S7, after the printer body 2 works for a long time, starting the moving assembly 30 to drive the mounting part 31 to move to a position close to one end of the bin body slot 2101 inside the fixed bin 21, and ensuring that the mounting part 31 is tightly attached to the abutting part 212;

s8, an electric push rod 313 in the mounting part 31 is started to drive the movable sliding block 314 to transversely move in the fixed frame 312 and the butt-joint sliding frame 2122, so that the rotary gear 315 contacts with the frame top toothed plate 316 and the overhanging toothed plate 2123 and then rotates;

s9, along with the rotation of the rotating gear 315, the plate bottom toothed plate 321 in the moving part 32 and the whole moving part 32 are driven to transversely move towards the outer side of the bin body slot 2101;

s10, after the to-be-moved part 32 integrally moves to the outer side of the bin body slot 2101, the rotating ring 331 in the locking part 33 is twisted to drive the rotating bracket 330 to rotate, so that the locking rod 332 is driven to retract inwards;

s11, after the locking rod 332 is retracted into the movable sliding plate 320, the whole dust cover 350 is taken out from the outer side of the movable sliding plate 320, and the ink jet head in the green ink jet assembly 34 is directly overhauled and maintained.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An inkjet green digital printing device, including coiled material mechanism (1) that is used for removing tensile printing material and set up printing machine body (2) on coiled material mechanism (1) the place ahead horizon, its characterized in that: the printing machine body (2) comprises a control console (20), a fixed bin (21) arranged on the top surface of the control console (20) and an air suction platform (23) arranged inside the control console (20);

the fixed bin (21) comprises a fixed bin body (210) with an open top, a sealing cover (211) arranged in the open interior of the fixed bin body (210), and a butt joint part (212) arranged on the side wall of one end of the fixed bin body (210);

the ink jet device (3) is arranged in the fixed bin (21), and the ink jet device (3) comprises a moving assembly (30), an installation part (31) arranged on a moving support of the moving assembly (30), a moving part (32) arranged on the front side wall of the installation part (31), a locking part (33) arranged in the moving part (32), a green ink jet assembly (34) arranged on the front side of the moving part (32) and a dust prevention part (35) sleeved outside the moving part (32);

the mounting part (31) comprises a mounting plate (310), a fixed frame body (312) arranged at the bottom of the front side wall of the mounting plate (310), an electric push rod (313) arranged in the fixed frame body (312), a movable slide block (314) arranged at the front end of the electric push rod (313) and capable of moving laterally in the fixed frame body (312), a rotating gear (315) arranged above the movable slide block (314) and a frame top toothed plate (316) arranged at the top of the inner side of the fixed frame body (312), wherein after the movable slide block (314) moves laterally, the rotating gear (315) contacts with the frame top toothed plate (316) to enable the rotating gear (315) to rotate;

the moving part (32) comprises a moving slide plate (320), a plate bottom toothed plate (321) which is arranged below the moving slide plate (320) and can drive the moving part (32) to move laterally integrally after the rotating gear (315) rotates, a fixed ring (322) which is arranged at the center of the outer side wall of the moving slide plate (320) and a plurality of limiting blocks (324) which are regularly arranged in the annular wall of the fixed ring (322);

the locking part (33) comprises a rotating bracket (330), a plurality of locking rods (332) which are arranged at the end part of the rotating bracket (330) and rotate along with the rotating bracket to move up and down, and square blocks (333) which are sleeved outside the locking rods (332) and used for limiting the moving interval of the locking rods (332).

2. The inkjet green digital printing apparatus according to claim 1 wherein: the fixed bin body (210) is fixedly connected to the top surface of the control console (20) through bolts, a bin body slot (2101) which is internally and externally communicated is formed in the front end of one end side wall of the fixed bin body (210), the sealing cover (211) is hinged to the position of the top opening of the fixed bin body (210) through a limiting hinge, and the air suction platform (23) is slidably connected to the inside of the control console (20) through a platform moving mechanism at the bottom.

3. The inkjet green digital printing apparatus according to claim 1 wherein: the butt joint portion (212) comprises two butt joint sliding rods (2120) which are oppositely arranged and are L-shaped in longitudinal section, a connecting plate (2121) welded and fixed at the outer side end parts of the two butt joint sliding rods (2120), a butt joint sliding frame (2122) welded and fixed on the inner side bottom surface of the connecting plate (2121), an overhanging toothed plate (2123) integrally formed on the top surface of the rear end of the butt joint sliding frame (2122) and two groups of fixing supports (2124) welded and fixed on the rear side walls of the two butt joint sliding rods (2120), wherein the inner side end parts of the two butt joint sliding frames (2122) and the inner side end parts of the butt joint sliding frames (2122) are respectively extended to the inner side of the fixed bin body (210), and the fixing supports (2124) are fixedly connected to the outer side wall of the fixed bin body (210) through bolts.

4. The inkjet green digital printing apparatus according to claim 1 wherein: the utility model discloses a movable assembly, including fixed frame body (312), mounting panel (310), fixed frame body (312), electric push rod (313), mounting panel (310) are through bolt fixed connection on the inside wall of fixed storehouse body (210), mounting panel (310) are through the bolt with remove support fixed connection in movable assembly (30), set up on the preceding lateral wall of mounting panel (310) be used for restricting spacing slider (311) of movable slider (320) sliding section, fixed frame body (312) welded fastening is in the bottom position department of mounting panel (310) preceding lateral wall, the longitudinal section of fixed frame body (312) is concave font, electric push rod (313) are through bolt fixed connection on the inside wall of fixed frame body (312), movable slider (314) pass through the bolt with the tip fixed connection of electric push rod (313), movable slider (314) sliding connection in the inside of fixed frame body (312), rotation gear (315) swivelling joint in the top of movable slider (314), frame top pinion (316) with fixed frame body (312) integrated into one piece, the tooth piece of frame top pinion (316) tip with rotation gear (315) intermesh.

5. The inkjet green digital printing apparatus according to claim 1 wherein: the inside of removal slide (320) is offered and is used for placing accomodate groove (3201) of locking portion (33), and the corner position department of removal slide (320) lateral wall is offered with accomodate groove (3202) that are linked together, board bottom pinion rack (321) with remove slide (320) welded fastening, board bottom pinion rack (321) with rotation gear (315) intermeshing.

6. The inkjet green digital printing apparatus according to claim 1 wherein: fixed ring (322) with remove slide (320) integrated into one piece, a plurality of regularly distributed accomodate hole (3220) have been seted up on the inboard annular wall of fixed ring (322), stopper (324) sliding connection in accomodate the inside of hole (3220), the tip of stopper (324) is hemispherical, welded fastening has pressure spring (323) on the inside wall of stopper (324), the other one end welded fastening of pressure spring (323) is in accomodate on the inside pore wall of hole (3220).

7. The inkjet green digital printing apparatus according to claim 6 wherein: the movable sliding plate is characterized in that the rotating support (330) is rotationally connected to the inside of the movable sliding plate (320), end plate through grooves (3301) penetrating through the end portions of the rotating support (330) are formed in the positions of the end portions of the rotating support (330), rotating rings (331) are integrally formed in the center positions of the outer side walls of the rotating support (330), the rotating rings (331) are rotationally connected to the inside of the fixed rings (322), and a plurality of ring wall openings (3310) matched with the storage holes (3220) in size are formed in the outer side walls of the rotating rings (331).

8. The inkjet green digital printing apparatus according to claim 7 wherein: the inside tip integrated into one piece of locking lever (332) has body of rod lug (3320), the tip sliding connection of body of rod lug (3320) is in the inside of end plate logical groove (3301), locking lever (332) sliding connection is in the inside of square piece (333), and the outside of dustproof portion (35) is extended to the other one end of locking lever (332), square piece (333) joint is fixed in the inside of removal slide (320).

9. The inkjet green digital printing apparatus according to claim 1 wherein: the dustproof part (35) comprises a dustproof cover body (350) and a fixed connecting plate (351) which is integrally formed at the bottom position of the inner side wall at the rear end of the dustproof cover body (350), and locking grooves (3501) which are matched with the locking rod (332) in size are formed in the corners of the outer side wall of the rear end of the dustproof cover body (350) and the outer side wall of the fixed connecting plate (351).

10. A process for inkjet green digital printing using the inkjet green digital printing apparatus according to claims 1 to 9, characterized in that: the method comprises the following steps:

1. preparation stage

S1, firstly, selecting a proper printing material according to actual use requirements, and fixing the printing material in a coiled material mechanism (1);

s2, then, manually matching with a coiled material mechanism (1) to lead the printing material to the inside of the printing machine body (2), penetrating the lower part of the ink jet device (3), and leading the end part of the printing material to the inside of a coiling mechanism at the front end of the printing machine body (2);

s2, transmitting pattern data to be printed to the inside of a console (20) in the printer body (2) through a data line by a computer;

2. printing material transport phase

S3, starting the coiled material mechanism (1) and a winding mechanism at the front end of the printing machine body (2), and simultaneously starting an air suction platform (23) in the printing machine body (2);

3. pattern printing stage

S4, starting a motor of a moving assembly (30) in the ink jet device (3) through a control console (20), driving a transmission belt in the moving assembly (30) to move, and driving a moving bracket to do transverse reciprocating motion;

s5, along with the movement of the movable support, the movable part (32) is driven to transversely reciprocate in the fixed bin (21), so that the green ink jet component (34) is driven to move back and forth above the printing material;

s6, the green ink-jet assembly (34) controls the ink-jet heads with different colors in the assembly according to the data parameters processed by the control console (20) to jet green and environment-friendly water-based ink on the surface of the printing material, so that pattern printing is completed;

4. maintenance adjustment phase

S7, after the printer body (2) works for a long time, starting the moving assembly (30) to drive the mounting part (31) to move to one end position, close to the bin body slot (2101), inside the fixed bin (21) and ensure that the mounting part (31) is tightly attached to the abutting part (212);

s8, starting an electric push rod (313) in the mounting part (31), driving the movable sliding block (314) to transversely move in the fixed frame body (312) and the butt joint sliding frame (2122), and enabling the rotary gear (315) to rotate after being contacted with the frame top toothed plate (316) and the overhanging toothed plate (2123);

s9, along with the rotation of the rotating gear (315), the plate bottom toothed plate (321) in the moving part (32) is driven to transversely move towards the outer side of the bin body slot (2101) together with the whole moving part (32);

s10, after the part (32) to be moved integrally moves to the outer side of the bin body slot (2101), the rotating ring (331) in the locking part (33) is twisted to drive the rotating bracket (330) to rotate, and the locking rod (332) is driven to shrink inwards;

s11, after the locking rod (332) is contracted into the movable sliding plate (320), the whole dustproof cover body (350) is taken out from the outer side of the movable sliding plate (320), and the ink jet head in the green ink jet assembly (34) is directly overhauled and maintained.