CN111002711B

CN111002711B - High-speed digital integrated printing system

Info

Publication number: CN111002711B
Application number: CN201911350655.0A
Authority: CN
Inventors: 刘奎; 蓝志坚
Original assignee: Guangdong Vivid Tech Co ltd
Current assignee: Guangdong Vivid Tech Co ltd
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2021-02-05
Anticipated expiration: 2039-12-24
Also published as: CN111002711A

Abstract

The invention discloses a high-speed digital integrated printing system, which comprises a controller and a conveying mechanism, wherein a height measuring instrument for measuring the height of a material, a static electricity eliminator for eliminating static electricity on the surface of the material, an electric arc generator, an infrared trigger and a printing mechanism for printing the material are sequentially arranged in the conveying direction of the conveying mechanism, the height measuring instrument, the static electricity eliminator, the electric arc generator and the infrared trigger are respectively connected with the controller, the printing mechanism comprises at least one printing spray head, at least one ink box and at least one spray head control main board, each printing spray head comprises a left printing spray head and a right printing spray head, the left printing spray head and the right printing spray head are arranged in a staggered mode, the left printing spray head and the right printing spray head are respectively communicated with the corresponding ink box through pipelines, and the left printing spray head and the right printing spray head are respectively connected with the corresponding spray head control main board, the sprayer control main board is connected with the controller.

Description

High-speed digital integrated printing system

Technical Field

The invention relates to the field of printing systems, in particular to a high-speed digital integrated printing system.

Background

The printing machine prints some printed materials, because the surface cover of material (printed material) is equipped with the protection film, the characters or the pattern that the printing machine printed drop easily to seriously influence printing quality, for example cigarette packing carton, the surface of cigarette packing carton covers and is stamped a layer of transparent protection film, and transparent protection film has higher smoothness degree, prints characters and the pattern and drops easily on untreated transparent protection film, thereby leads to printing quality to descend.

In addition, the conventional UV inkjet printing adopts a scanning mode, that is, ink is printed on a printing material by a plurality of cycles through the left-right reciprocating movement of a printing head, and the printing mode has the disadvantages of relatively slow speed and relatively low work efficiency, thus increasing the production cost.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a high-speed digital integrated printing system, which is characterized in that a static eliminator and an arc generator are arranged at the starting end of a conveying mechanism, the static eliminator can eliminate static electricity on the surface of a material, the arc generator can send a high-voltage arc to the surface of the material, the internal molecular structure of the material is recombined, and the fusion and the adhesive force between the surface of the material and ink are enhanced.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a high-speed digital integrated printing system comprises a controller and a conveying mechanism, wherein a height measuring instrument for measuring the height of a material, a static eliminator for eliminating static electricity on the surface of the material, an electric arc generator for electric shock on the surface of the material, an infrared trigger for detecting the position of the material and a printing mechanism for printing the material are sequentially arranged in the conveying direction of the conveying mechanism, the height measuring instrument, the static eliminator, the electric arc generator and the infrared trigger are respectively connected with the controller, the printing mechanism comprises at least one printing nozzle, at least one ink box and at least one nozzle control main board, each printing nozzle comprises a left printing nozzle and a right printing nozzle, the left printing nozzle and the right printing nozzle are arranged in a staggered mode, the left printing nozzle and the right printing nozzle are respectively communicated with the corresponding ink box through pipelines, and the left printing nozzle and the right printing nozzle are respectively connected with the corresponding nozzle control main board, the sprayer control main board is connected with the controller.

Furthermore, the high-speed digital integrated printing system also comprises a first ball screw, a second ball screw and a third ball screw, wherein the first ball screw is used for driving the static eliminator to move up and down, the second ball screw is used for driving the electric arc generator to move up and down, and the third ball screw is used for driving the printing mechanism to move up and down; and the first ball screw, the second ball screw and the third ball screw are respectively connected with a controller.

Further, be provided with first slider on the first ball, first slider with the static eliminator is connected, be provided with the second slider on the second ball, the second slider with arc generator is connected, be provided with the third slider on the third ball, the third slider with printing mechanism connects.

Further, conveying mechanism includes conveying motor, hold-in range, first transmission shaft, conveying motor with the controller is connected, the one end of first transmission shaft pass through the shaft coupling with conveying motor's output shaft, the other end is connected with primary shaft bearing, the one end of hold-in range pass through first transmission gear with first transmission shaft is connected, the other end pass through second transmission gear with the second transmission shaft is connected, the one end and the secondary shaft bearing of second transmission shaft are connected, and the other end is connected with third bearing.

Furthermore, a plurality of material clamping grooves for placing materials are uniformly arranged on the conveying mechanism.

Further, the material clamping groove is an L-shaped material clamping groove.

Furthermore, the number of the printing nozzles is six, and the printing nozzles are respectively marked as a first printing nozzle, a second printing nozzle, a third printing nozzle, a fourth printing nozzle, a fifth printing nozzle and a sixth printing nozzle, the number of the ink boxes is six, and the ink boxes are respectively marked as a first ink box, a second ink box, a third ink box, a fourth ink box, a fifth ink box and a sixth ink box, the number of the nozzle control main boards is six, and the nozzle control main boards are respectively marked as a first nozzle control main board, a second nozzle control main board, a third nozzle control main board, a fourth nozzle control main board, a fifth nozzle control main board and a sixth nozzle control main board, and the first nozzle control main board, the second nozzle control main board, the third nozzle control main board, the fourth nozzle control main board, the fifth nozzle control main board and the sixth nozzle control main board are respectively connected with the controller; the first printing sprayer comprises a first left printing sprayer and a first right printing sprayer, the first left printing sprayer and the first right printing sprayer are arranged in a staggered mode, the first left printing sprayer and the first right printing sprayer are respectively communicated with the first ink box through pipelines, and the first left printing sprayer and the first right printing sprayer are respectively connected with the first sprayer control main board; the second printing spray heads comprise a second left printing spray head and a second right printing spray head, the second left printing spray head and the second right printing spray head are arranged in a staggered mode, the second left printing spray head and the second right printing spray head are respectively communicated with the second ink box through pipelines, and the second left printing spray head and the second right printing spray head are respectively connected with the second spray head control main board; the third printing nozzle comprises a third left printing nozzle and a third right printing nozzle, the third left printing nozzle and the third right printing nozzle are arranged in a staggered mode, the third left printing nozzle and the third right printing nozzle are respectively communicated with the third ink box through pipelines, and the third left printing nozzle and the third right printing nozzle are respectively connected with the third nozzle control main board; the fourth printing nozzle comprises a fourth left printing nozzle and a fourth right printing nozzle, the fourth left printing nozzle and the fourth right printing nozzle are arranged in a staggered mode, the fourth left printing nozzle and the fourth right printing nozzle are respectively communicated with the fourth ink box through pipelines, and the fourth left printing nozzle and the fourth right printing nozzle are respectively connected with the fourth nozzle control main board; the fifth printing nozzle comprises a fifth left printing nozzle and a fifth right printing nozzle, the fifth left printing nozzle and the fifth right printing nozzle are arranged in a staggered mode, the fifth left printing nozzle and the fifth right printing nozzle are communicated with the fifth ink box through pipelines respectively, the fifth left printing nozzle and the fifth right printing nozzle are connected with the fifth nozzle control main board respectively, the sixth printing nozzle comprises a sixth left printing nozzle and a sixth right printing nozzle, the sixth left printing nozzle and the sixth right printing nozzle are arranged in a staggered mode, the sixth left printing nozzle and the sixth right printing nozzle are communicated with the sixth ink box through pipelines respectively, and the sixth left printing nozzle and the sixth right printing nozzle are connected with the sixth nozzle control main board respectively.

Compared with the prior art, the invention has the beneficial effects that the conveying mechanism is sequentially provided with a height measuring instrument for measuring the height of the material, a static electricity eliminator for eliminating the static electricity on the surface of the material, an electric arc generator for electrically shocking the surface of the material, an infrared trigger for detecting the position of the material and a printing mechanism for printing the material from the starting end to the tail end, wherein the static electricity eliminator can eliminate the static electricity on the surface of the material, the electric arc generator can send a high-voltage electric arc to the surface of the material, the internal molecular structure of the material is recombined, and the fusion and the adhesive force of the surface of the material and ink are enhanced; the printing mechanism comprises at least one printing nozzle, at least one ink box and at least one nozzle control main board, each printing nozzle comprises a left printing nozzle and a right printing nozzle, the left printing nozzle and the right printing nozzle are arranged in a staggered mode, the single-color single printing nozzle is replaced by a plurality of single-color printing nozzles, and materials pass through a working area of the printing mechanism to finish a pattern to be printed, so that the printing speed can be effectively increased, and the overall working efficiency is improved.

Drawings

Embodiments of the invention are described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a printing mechanism according to the present invention.

In the figure: 1-conveying mechanism, 2-height measuring instrument, 3-electrostatic eliminator, 4-arc generator, 5-infrared trigger, 11-material clamping groove, 61-printing nozzle, 62-ink box, 63-nozzle control main board, 621-first ink box, 622-second ink box, 623-third ink box, 624-fourth ink box, 625-fifth ink box, 626-sixth ink box, 631-first nozzle control main board, 632-second nozzle control main board, 633-third nozzle control main board, 634-fourth nozzle control main board, 635-fifth nozzle control main board, 636-sixth nozzle control main board, 711-first left printing nozzle, 712-first right printing nozzle, 721-second left printing nozzle, 722-second right printing nozzle, 731-third left printing nozzle, 732-third right printing nozzle, 741-fourth left printing nozzle, 742-fourth right printing nozzle, 751-fifth left printing nozzle, 752-fifth right printing nozzle, 761-sixth left printing nozzle, and 762-sixth right printing nozzle.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-2, a high-speed digital integrated printing system comprises a controller and a conveying mechanism 1, wherein the conveying mechanism 1 is sequentially provided with a height measuring instrument 2 for measuring the height of a material, a static electricity eliminator 3 for eliminating static electricity on the surface of the material, an arc generator 4 for electric shock on the surface of the material, an infrared trigger 5 for detecting the position of the material and a printing mechanism for printing the material from a starting end to a tail end, and the height measuring instrument 2, the static electricity eliminator 3, the arc generator 4 and the infrared trigger 5 are respectively connected with the controller. Preferably, the static eliminator 3 can eliminate static on the surface of the material, and the arc generator 4 can send high-voltage electric arcs to the surface of the material to recombine internal molecular structures of the material, so that the fusion and adhesion of the surface of the material and ink are enhanced.

Specifically, printing mechanism includes at least one printing shower nozzle 61, at least one ink horn 62 and at least one shower nozzle control mainboard 63, and each printing shower nozzle 61 includes left side printing shower nozzle and right side printing shower nozzle, left side printing shower nozzle with right side printing shower nozzle sets up in the alternative, left side printing shower nozzle and right side printing shower nozzle communicate with the ink horn 62 that corresponds through the pipeline respectively, left side printing shower nozzle and right side printing shower nozzle are connected with corresponding shower nozzle control mainboard 63 respectively, shower nozzle control mainboard 63 with the controller is connected. In the embodiment, a plurality of monochromatic printing nozzles 61 are adopted to replace a monochromatic single printing nozzle, and the material passes through the work area of the printing mechanism to complete the required printed patterns, so that the printing speed can be effectively increased, and the overall work efficiency is improved.

Specifically, the number of the printing nozzles is six, and the six printing nozzles are respectively marked as a first printing nozzle, a second printing nozzle, a third printing nozzle, a fourth printing nozzle, a fifth printing nozzle and a sixth printing nozzle, the number of the ink cartridges 62 is six, which are respectively designated as a first ink cartridge 621, a second ink cartridge 622, a third ink cartridge 623, a fourth ink cartridge 624, a fifth ink cartridge 625, and a sixth ink cartridge 626, the number of the head control main boards 63 is six, and the six head control main boards are respectively marked as a first head control main board 631, a second head control main board 632, a third head control main board 633, a fourth head control main board 634, a fifth head control main board 635, and a sixth head control main board 636, the first nozzle control main board 631, the second nozzle control main board 632, the third nozzle control main board 633, the fourth nozzle control main board 634, the fifth nozzle control main board 635 and the sixth nozzle control main board 636 are respectively connected to the controller.

Specifically, the first printing nozzle includes a first left printing nozzle 711 and a first right printing nozzle 712, the first left printing nozzle 711 and the first right printing nozzle 712 are disposed in a staggered manner, the first left printing nozzle 711 and the first right printing nozzle 712 are respectively communicated with the first ink tank 621 through a pipeline, and the first left printing nozzle 711 and the first right printing nozzle 712 are respectively connected with the first nozzle control main board 631.

Specifically, the second printing nozzle includes a second left printing nozzle 721 and a second right printing nozzle 722, the second left printing nozzle 721 and the second right printing nozzle 722 are arranged in a staggered manner, the second left printing nozzle 721 and the second right printing nozzle 722 are respectively communicated with the second ink cartridge 622 through a pipeline, and the second left printing nozzle 721 and the second right printing nozzle 722 are respectively connected with the second nozzle control main board 632.

Specifically, the third printing nozzle includes a third left printing nozzle 731 and a third right printing nozzle 732, the third left printing nozzle 731 and the third right printing nozzle 732 are arranged in a staggered manner, the third left printing nozzle 731 and the third right printing nozzle 732 are respectively communicated with the third ink cartridge 623 through a pipeline, and the third left printing nozzle 731 and the third right printing nozzle 732 are respectively connected with the third nozzle control main board 633.

Specifically, the fourth printing nozzle includes a fourth left printing nozzle 741 and a fourth right printing nozzle 742, the fourth left printing nozzle 741 and the fourth right printing nozzle 742 are disposed in a staggered manner, the fourth left printing nozzle 741 and the fourth right printing nozzle 742 are respectively communicated with the fourth ink cartridge 624 through a pipeline, and the fourth left printing nozzle 741 and the fourth right printing nozzle 742 are respectively connected with the fourth nozzle control main board 634.

Specifically, the fifth printing head includes a fifth left printing head 751 and a fifth right printing head 752, the fifth left printing head 751 and the fifth right printing head 752 are disposed in a staggered manner, the fifth left printing head 751 and the fifth right printing head 752 are respectively communicated with the fifth ink cartridge 625 through a pipeline, and the fifth left printing head 751 and the fifth right printing head 752 are respectively connected with the fifth head control main board 635.

Specifically, the sixth printing nozzle includes a sixth left printing nozzle 761 and a sixth right printing nozzle 762, the sixth left printing nozzle 761 and the sixth right printing nozzle 762 are disposed in a staggered manner, the sixth left printing nozzle 761 and the sixth right printing nozzle 762 communicate with the sixth ink cartridge 626 through a pipeline, respectively, and the sixth left printing nozzle 761 and the sixth right printing nozzle 762 are connected to the sixth nozzle control main board 636, respectively.

Specifically, the embodiment further includes a first ball screw, a second ball screw and a third ball screw, the first ball screw is used for driving the electrostatic eliminator 3 to move up and down, the second ball screw is used for driving the arc generator 4 to move up and down, and the third ball screw is used for driving the printing mechanism to move up and down; and the first ball screw, the second ball screw and the third ball screw are respectively connected with a controller.

Specifically, be provided with first slider on the first ball, first slider with electrostatic eliminator 3 is connected, be provided with the second slider on the second ball, the second slider with arc generator 4 is connected, be provided with the third slider on the third ball, the third slider with printing mechanism connects.

Specifically, conveying mechanism 1 includes conveying motor, hold-in range, first transmission shaft, conveying motor with the controller is connected, the one end of first transmission shaft pass through the shaft coupling with conveying motor's output shaft, the other end is connected with primary shaft bearing, the one end of hold-in range pass through first transmission gear with first transmission shaft is connected, the other end pass through second transmission gear with the second transmission shaft is connected, the one end and the secondary shaft bearing of second transmission shaft are connected, and the other end is connected with third bearing.

Specifically, a plurality of material clamping grooves 11 for placing materials are uniformly arranged on the conveying mechanism 1. Preferably, the material clamping groove 11 is an L-shaped material clamping groove. Material draw-in groove 11 sets up on the hold-in range, and the material is placed in material draw-in groove 11, is provided with material draw-in groove 11 and can blocks the material better, prevents that the material from taking place to remove at the in-process of printing.

The working principle of the embodiment is as follows:

when the materials are printed, the materials are placed on a synchronous belt, a conveying motor is started through a controller, the materials are conveyed to a height measuring instrument 2, the height measuring instrument 2 measures the height of the materials, the height measuring instrument 2 feeds measured data back to the controller, the controller controls the first ball screw, the second ball screw and the third ball screw to lift, so that a static eliminator 3, an arc generator 4 and a printing mechanism are adjusted to corresponding heights, after the height adjustment is finished, the materials sequentially pass through the static eliminator 3 and the arc generator 4 under the driving of the synchronous belt, the static eliminator 3 can eliminate static electricity on the surfaces of the materials, the arc generator 4 can blow high-voltage electric arcs to the surfaces of the materials, internal molecular structures of the materials are recombined, and the fusion and the adhesive force of the surfaces of the materials and ink are enhanced; the material gets into the printing district after printing the pretreatment, touches infrared trigger 5, and after the controller accepted infrared trigger 5's signal, send the signal to shower nozzle control mainboard 63, shower nozzle control mainboard 63 control printing shower nozzle 61 with the content spraying of required printing on the material surface, just accomplish the work flow of single material behind the printing district.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. A high-speed digital integrated printing system is characterized in that: comprises a controller and a conveying mechanism (1), wherein a height measuring instrument (2) used for measuring the height of a material, a static electricity eliminator (3) used for eliminating static electricity on the surface of the material, an electric arc generator (4) used for electric shock on the surface of the material, an infrared trigger (5) used for detecting the position of the material and a printing mechanism used for printing the material are sequentially arranged in the conveying direction of the conveying mechanism, the height measuring instrument (2), the static electricity eliminator (3), the electric arc generator (4) and the infrared trigger (5) are respectively connected with the controller, the printing mechanism comprises at least one printing nozzle (61), at least one ink box (62) and at least one nozzle control main board (63), each printing nozzle (61) comprises a left printing nozzle and a right printing nozzle, the left printing nozzle and the right printing nozzle are arranged in a staggered manner, and the left printing nozzle and the right printing nozzle are respectively communicated with the corresponding ink box (62) through pipelines, the left printing sprayer and the right printing sprayer are respectively connected with corresponding sprayer control main boards (63), and the sprayer control main boards (63) are connected with the controller.

2. The high-speed digital code integrated printing system according to claim 1, characterized in that: the electrostatic eliminator further comprises a first ball screw, a second ball screw and a third ball screw, wherein the first ball screw is used for driving the electrostatic eliminator (3) to move up and down, the second ball screw is used for driving the electric arc generator (4) to move up and down, and the third ball screw is used for driving the printing mechanism to move up and down; and the first ball screw, the second ball screw and the third ball screw are respectively connected with a controller.

3. The high-speed digital code integrated printing system according to claim 2, characterized in that: the first ball screw is provided with a first sliding block, the first sliding block is connected with the static eliminator (3), the second ball screw is provided with a second sliding block, the second sliding block is connected with the electric arc generator (4), the third ball screw is provided with a third sliding block, and the third sliding block is connected with the printing mechanism.

4. The high-speed digital code integrated printing system according to claim 1, characterized in that: conveying mechanism (1) is including conveying motor, hold-in range, first transmission shaft, conveying motor with the controller is connected, the one end of first transmission shaft pass through the shaft coupling with conveying motor's output shaft, the other end is connected with primary shaft bearing, the one end of hold-in range pass through first drive gear with first transmission shaft is connected, and the other end passes through second drive gear and secondary shaft bearing and is connected, and the one end and the secondary shaft bearing of secondary shaft are connected, and the other end is connected with third bearing.

5. The high-speed digital code integrated printing system according to claim 1, characterized in that: the conveying mechanism (1) is uniformly provided with a plurality of material clamping grooves (11) for placing materials.

6. The high-speed digital code integrated printing system according to claim 5, characterized in that: the material clamping groove (11) is an L-shaped material clamping groove.

7. The high-speed digital code integrated printing system according to claim 1, characterized in that: the number of the printing nozzles (61) is six, and the printing nozzles are respectively recorded as a first printing nozzle, a second printing nozzle, a third printing nozzle, a fourth printing nozzle, a fifth printing nozzle and a sixth printing nozzle, the number of the ink cartridges (62) is six, and the ink cartridges are respectively recorded as a first ink cartridge (621), a second ink cartridge (622), a third ink cartridge (623), a fourth ink cartridge (624), a fifth ink cartridge (625) and a sixth ink cartridge (626), the number of the nozzle control main board (63) is six, and the ink cartridges are respectively recorded as a first nozzle control main board (631), a second nozzle control main board (632), a third nozzle control main board (633), a fourth nozzle control main board (634), a fifth nozzle control main board (635) and a sixth nozzle control main board (636), the first nozzle control main board (631), the second nozzle control main board (632), the third nozzle control main board (633), A fourth nozzle control main board (634), a fifth nozzle control main board (635) and a sixth nozzle control main board (636) are respectively connected with the controller; the first printing nozzle comprises a first left printing nozzle (711) and a first right printing nozzle (712), the first left printing nozzle (711) and the first right printing nozzle (712) are arranged in a staggered mode, the first left printing nozzle (711) and the first right printing nozzle (712) are respectively communicated with the first ink box (621) through pipelines, and the first left printing nozzle (711) and the first right printing nozzle (712) are respectively connected with the first nozzle control main board (631); the second printing spray heads comprise a second left printing spray head (721) and a second right printing spray head (722), the second left printing spray head (721) and the second right printing spray head (722) are arranged in a staggered mode, the second left printing spray head (721) and the second right printing spray head (722) are respectively communicated with the second ink box (622) through pipelines, and the second left printing spray head (721) and the second right printing spray head (722) are respectively connected with the second spray head control main board (632); the third printing nozzle comprises a third left printing nozzle (731) and a third right printing nozzle (732), the third left printing nozzle (731) and the third right printing nozzle (732) are arranged in a staggered mode, the third left printing nozzle (731) and the third right printing nozzle (732) are respectively communicated with the third ink box (623) through pipelines, and the third left printing nozzle (731) and the third right printing nozzle (732) are respectively connected with the third nozzle control main board (633); the fourth printing nozzle comprises a fourth left printing nozzle (741) and a fourth right printing nozzle (742), the fourth left printing nozzle (741) and the fourth right printing nozzle (742) are arranged in a staggered mode, the fourth left printing nozzle (741) and the fourth right printing nozzle (742) are respectively communicated with the fourth ink box (624) through pipelines, and the fourth left printing nozzle (741) and the fourth right printing nozzle (742) are respectively connected with the fourth nozzle control main board (634); the fifth printing nozzle comprises fifth left printing nozzles (751) and fifth right printing nozzles (752), the fifth left printing nozzles (751) and the fifth right printing nozzles (752) are arranged in a staggered manner, the fifth left printing nozzles (751) and the fifth right printing nozzles (752) are respectively communicated with the fifth ink box (625) through pipelines, the fifth left printing nozzles (751) and the fifth right printing nozzles (752) are respectively connected with the fifth nozzle control main board (635), the sixth printing nozzles comprise sixth left printing nozzles (761) and sixth right printing nozzles (762), the sixth left printing nozzles (761) and the sixth right printing nozzles (762) are arranged in a staggered manner, the sixth left printing nozzles (761) and the sixth right printing nozzles (762) are respectively communicated with the sixth ink box (626) through pipelines, and the sixth left printing nozzles (761) and the sixth right printing nozzles (762) are respectively communicated with the sixth nozzle control main board (636) And (4) connecting.