CN105026158A

CN105026158A - Inkjet printing apparatus and printing method

Info

Publication number: CN105026158A
Application number: CN201380074261.1A
Authority: CN
Inventors: 张原�
Original assignee: Beijing Meikeyi Digital Technology Development Co Ltd
Current assignee: Beijing Meikeyi Digital Technology Development Co Ltd
Priority date: 2013-12-23
Filing date: 2013-12-23
Publication date: 2015-11-04
Anticipated expiration: 2033-12-23
Also published as: CN105026158B; WO2015095992A1

Abstract

An inkjet printing apparatus comprises a paper advance mechanism (4), a support (2), a small printing vehicle (3), and a control system. The paper advance mechanism (4) feeds a to-be-printed printing object in a rotation manner at a time interval. The support (2) is used for mounting the small printing vehicle (3). A first driving mechanism is disposed on the support (2). The first driving mechanism is used for driving the small printing vehicle (3) to move front and back along a second direction perpendicular to a guide rail beam (1). The support (2) roughly moves left and right along a first direction parallel to the guide rail beam (1) at a constant speed. At least one printing head is mounted on the small printing vehicle (3). The control system is used for controlling work of the paper advance mechanism (4), the support (2), the small printing vehicle (3) and the printing head. High-precision wide-format printing is implemented, and feeding, discharging and printing can be synchronously implemented, thereby improving the printing efficiency.

Description

Inkjet-printing device and Method of printing

Technical field

The present invention relates to a kind of inkjet-printing device and Method of printing, inkjet-printing device and Method of printing that a kind of multiple print platform intermittent rotaries supply object to be printed are in particulard relate to.

Background technology

Inkjet technology refers to spray ink droplet in the technology for obtaining print image or word on object to be printed by shower nozzle.The technology is noncontact printing, fast with print speed, pollutes small, the advantages of adapting to a variety of objects to be printed and be widely used in industrial application.Inkjet printing is divided into scan-type according to the motion mode of printing dolly and object to be printed（Scanning）Inkjet printing and one-pass sheet-fed imaging（Onepass）Two kinds of inkjet printing, scanning type inkjet printing includes Reel-to-reel type inkjet printing and flatbed inkjet prints two kinds, wherein Reel-to-reel type inkjet printing prints dolly in ink jet printing process and moved back and forth along guide rail beam object relatively to be printed, object to be printed installs the guide rail beam transfixion of printing dolly along the direction relative motion perpendicular to printing moving of car direction；And flatbed inkjet is printed upon in ink jet printing process two kinds of situations, one kind is motionless in ink jet printing process middle guide beam, and printing dolly is moved back and forth along guide rail beam, and print platform is along the direction relative motion perpendicular to printing moving of car direction；Also one kind is print platform transfixion, and printing dolly is moved back and forth along guide rail beam relative to object to be printed, and prints dolly along the direction relative motion perpendicular to guide rail beam.And one-pass sheet-fed imaging inkjet printing prints dolly transfixion, the unidirectional high-speed motion of object to be printed in ink jet process.Very high is required to the printing precision and print span of shower nozzle using one-pass sheet-fed imaging inkjet printing, the printing precision of shower nozzle need to be the printing precision of image, and the print span of shower nozzle need to be the print span of image, certainly high accuracy is obtained also by the mode of interpolation shower nozzle and broader print span is obtained by way of concatenating shower nozzle, but this necessarily causes the quantity of shower nozzle to increase, either use high-precision shower nozzle still by multiple shower nozzles obtain high printing precision this necessarily so that the cost of printer increases.

It is in the prior art to use print platform transfixion more, printing dolly is moved back and forth along guide rail beam relative to print media, and guide rail beam feeds print media along the mode perpendicular to the relative movement of the direction of guide rail beam and improves printing precision, but in this way because guide rail beam is heavier in itself, comparatively the more complicated cost of its travel mechanism design is higher, and the volume of complete machine is larger.

The content of the invention

The problem of existing for prior art, a kind of simple in construction it is an object of the invention to propose, cost is low, and printing precision is high, and multiple print platform intermittent rotaries supply the inkjet-printing device of object to be printed.

To realize the purpose, the present invention proposes that a kind of inkjet-printing device includes a printing dolly, at least one printhead is installed on printing dolly；One first drive mechanism is set on one support, the support, and first drive mechanism is for driving printing dolly to be moved forward and backward along the second direction vertical with guide rail beam, and support is moved left and right with a constant speed along the first direction parallel with guide rail beam substantially；One paper advance mechanism, the paper advance mechanism gives object to be printed in the way of intermittent rotary；One control system, control system control paper advance mechanism, support, the work for printing dolly and printhead.

In above-mentioned inkjet-printing device, the motion mode of support and printing dolly is：Support from one end on first direction to be moved to the other end, and the mode for returning to one end from the other end is relatively moved relative to object to be printed, and printing dolly is relatively moved relative to object to be printed in a second direction in the state of at one end.

In above-mentioned inkjet-printing device, the motion mode of support and printing dolly can also be：Support from one end on first direction to be moved to after the other end, and printing dolly is relatively moved relative to object to be printed in a second direction in the state of the other end, and then support is moved to one end from the other end relative to object to be printed in the first direction.

In above-mentioned inkjet-printing device, one second drive mechanism is also set up on support, second drive mechanism driving printing dolly moves up and down along the third direction perpendicular to plane where print media.

In above-mentioned inkjet-printing device, paper advance mechanism includes print platform, a base and one the 3rd drive mechanism of at least two placement objects to be printed, along the circumferential direction array is arranged on base multiple print platforms, and the 3rd drive mechanism drives multiple print platforms to be rotated around base central shaft.

In above-mentioned inkjet-printing device, print platform is connected by spiral arm with base central shaft.

In above-mentioned inkjet-printing device, one solidification equipment is set respectively in the left and right ends of printing dolly, the solidification equipment is made up of the multiple LEDs arranged in a second direction.

Another object of the present invention is to propose a kind of inkjet printing methods, the inkjet printing methods spray ink droplet by the printhead being installed on printing dolly, and by the solidification equipment for being arranged on printing dolly two ends makes ink droplet solidification realize printing to object irradiation ultraviolet radiation to be printed, support carries out relative back and forth movement relative to object to be printed in the first direction, and printing dolly carries out step motion along the second direction orthogonal with first direction relative to object to be printed；Multiple print platforms comprise the steps around base central shaft intermittent rotary, inkjet printing methods of the invention：The first step, while making support be moved to the other end from one end relative to the first object to be printed in the first direction, while irradiation ultraviolet radiation solidifies ink droplet in first on from printhead to the first print platform object injection ink droplet, and self-curing device to be printed；Second step, makes printing dolly be relatively moved in a second direction relative to the first object to be printed in the state of the other end；3rd step, while making support move one end from the other end relative to object to be printed in the first direction, while the ink droplet sprayed from printhead is superimposed on the ink droplet on the first object to be printed being attached in the above-mentioned first step on the first print platform, and irradiation ultraviolet radiation solidifies ink droplet in self-curing device；4th step, repeats the above-mentioned first step, second step and the 3rd step until having printed image on the first object to be printed；5th step, paper advance mechanism rotation the second object to be printed of supply；The above-mentioned first step, second step, the 3rd step, the 4th step are repeated until having printed image on the second object to be printed；6th step, repeats the above-mentioned first step, second step, the 3rd step, the 4th step, the 5th step until all objects to be printed have been printed.

Above-mentioned Method of printing makes the distance between printing dolly top nozzle place plane and object to be printed for the distance suitable for printing before being additionally included in the beginning first step by adjusting the second drive mechanism.

A further object of the present invention is to propose another inkjet printing methods, and the inkjet printing methods comprise the steps：The first step, while making support be moved to the other end from one end relative to the first object to be printed in the first direction, while irradiation ultraviolet radiation solidifies ink droplet in first on from printhead to the first print platform object injection ink droplet, and self-curing device to be printed；Second step, while making support move one end from the other end relative to the first object to be printed in the first direction, while the ink droplet sprayed from printhead is superimposed on the ink droplet on the first object to be printed being attached in the above-mentioned first step on the first print platform, and irradiation ultraviolet radiation solidifies ink droplet in self-curing device；3rd step, step motion is carried out in the state of making printing dolly at one end relative to the first object to be printed in a second direction；4th step, repeats the above-mentioned first step, second step and the 3rd step until having printed image on the first object to be printed；5th step, paper advance mechanism rotation the second object to be printed of supply；The above-mentioned first step, second step, the 3rd step, the 4th step are repeated until having printed image on the second object to be printed；6th step, repeats the above-mentioned first step, second step, the 3rd step, the 4th step, the 5th step until all objects to be printed have been printed.

The inkjet-printing device of the present invention is simple in construction, progress scan-type printing on platform is may be implemented in the motion of second direction in the first direction by printing dolly, it is that the printing of high-precision wide width can be achieved using less shower nozzle, the paper advance mechanism of the inkjet-printing device of the present invention supplies object to be printed with rotatory intermittent, synchronous feeding, blanking and printing can be realized, printing effect is improved.

Brief description of the drawings

Fig. 1 is the schematic diagram of inkjet-printing device of the present invention；

Fig. 2 is the stereogram of printing portion in inkjet-printing device of the present invention；

Fig. 3 is the rack-mount stereogram of printing dolly in inkjet-printing device of the present invention；

Fig. 4 is the stereogram of inkjet-printing device medium-height trestle of the present invention；

Fig. 5 is the flow chart of inkjet printing methods of the present invention；

Fig. 6 is the flow chart of another inkjet printing methods of the invention.

Embodiment

The inkjet-printing device and inkjet printing methods that the invention will now be described in detail with reference to the accompanying drawings.

As depicted in figs. 1 and 2, the inkjet-printing device in the present invention includes printing dolly 3, guide rail beam 1, support 2, paper advance mechanism 4 and control system（Not depending on going out in figure）.Guide rail beam 1 includes lateral frame 11 and left pillar 10a and right pillar 10b.One drive mechanism is installed on lateral frame 11, the drive mechanism is moved in a first direction for driving arm 2, drive mechanism is made up of the servomotor 15 and belt 12 and left belt wheel 13a and right belt wheel 13b for being arranged on the one end of lateral frame 11, left belt wheel 13a and right belt wheel 13b is separately positioned on the left and right ends of lateral frame 11, wherein left belt wheel 13a is connected with servomotor 15, belt 12 connects left belt wheel 13a and right belt wheel 13b, drives left belt wheel 13a rotations to drive belt 12 to move by servomotor 15.A grating 17 is also equipped with lateral frame 11 is used for the movement position of positioning printing dolly in a first direction.Upper rail 14b and lower guideway 14a are also equipped with lateral frame 11, it is chimeric with upper rail 14b and lower guideway 14a to be provided with two sliding blocks at the back side of support 2, so that support 2 can be along upper rail 14b and lower guideway 14a in a first direction（Left and right directions）Carry out back and forth movement freely.One drag chain plate 16 and drag chain 18 are also installed on lateral frame 11, the one end of drag chain 18 is connected with support 2, the other end is arranged on drag chain plate 16, drag chain plate 16 is groove structure, drag chain 18 is moved back and forth in the groove structure.

Print dolly 3 to be arranged on support 2, installing on printing dolly 3 includes being used to spray magenta（M）, yellow（Y）, cyan（C）And black（K）The printhead of ink, the printhead of each chromatic ink is at least one, and the same chromatic ink of multiple printhead prints can be used to improve print speed.At least one can also be installed respectively on the printing dolly of the present invention with printing white（W）Ink and/or Transparent color（V）The printhead of ink.The print cartridge and corresponding vacuum control system for accommodating ink can be set on printing dolly 3.The ink that the printhead of the present invention is used is UV inks.

A solidification equipment 32 is respectively mounted at the two ends of printing dolly 3.The solidification equipment of the present invention is made up of multiple LED for irradiation ultraviolet radiation of spread configuration in a second direction, the present invention can also set a solidification equipment in one end of printing dolly 3, one solidification equipment such as is set in the left end of printing dolly 3, or one solidification equipment is set in the right-hand member of printing dolly 3.

Support 2 is arranged on guide rail beam 1, and control system control drive mechanism driving arm 2 is in the first direction（Direction where guide rail beam, the X-direction that inkjet printing field is often said）It is reciprocating, and control the first drive mechanism on support 2 to drive printing dolly 3 in a second direction（The direction of vertical guide rail beam, the Y direction that inkjet printing field is often said）Make step motion relative to object to be printed, and control the printhead being mounted thereon to spray ink droplet on object to be printed during printing dolly 3 is moved.Guide rail beam 1 is arranged on printing base by left pillar 10a and right pillar 10b, one servomotor 11 is installed on guide rail beam 1, the servomotor 11 drives support 2 to drive the printing dolly 3 being installed on support 2 with a substantially invariable speed side-to-side movement in the first direction by belt belt wheel 12.

Paper advance mechanism 4 in one embodiment of the invention includes print platform 41-48, spiral arm 51-58, Pivot axle 6, the 3rd drive mechanism and base（Not depending on going out in figure）, print platform 41-48 is into around Pivot axle 6, into circumference array setting, print platform 41-48 is used to install object to be printed, and print platform 41-48 is connected in Pivot axle 6 by spiral arm 51-58 respectively.Control system controls the 3rd drive mechanism driving print platform 41-48 intermittent rotaries to supply object to be printed.The paper advance mechanism of the present invention can also set the print platform of two, three, four, five, six or other numbers.

As shown in Figure 3 and Figure 4, one first drive mechanism is provided with support 2 includes motor 21 and screw mandrel 22, screw 23, the output end of motor 21 is connected with screw mandrel 22, screw 23 is installed on screw mandrel 22, screw 23 is connected by nut seat with printing dolly 3, one sliding block 31 is respectively installed in the both sides of printing dolly 3, sliding block 31 coordinates with being arranged on the guide rail 25 of the both sides of support 2, drives screw mandrel 22, screw 23 to rotate by motor 21 to drive printing dolly 3 to move forward and backward in a second direction.

The motion mode of support 2 in the present invention and printing dolly 3 is：Support 2 is with from one end on first direction（Right-hand member in figure）It is moved to the other end（Left end in figure）, and the mode for returning to one end from the other end relatively moved relative to object to be printed, is then printed dolly 3 and is relatively moved in a second direction relative to object to be printed in the state of at one end（Move back to front）.

The motion mode of support 2 in the present invention and printing dolly 3 can also be：Support 2 from one end on first direction to be moved to after the other end, and printing dolly 3 is relatively moved relative to object to be printed in a second direction in the state of the other end, and then support 2 is moved to one end from the other end relative to object to be printed in the first direction.

Can also be set on the support 2 of the present invention one second drive mechanism be used for drive print dolly 3 along third direction（Third direction is the direction vertical with plane where object to be printed, the Z-direction that inkjet printing field is often said）Move up and down to adapt to the object to be printed of different-thickness.

Dolly and guide rail beam are printed in one embodiment of the invention and support is arranged on the side of paper advance mechanism, dolly and guide rail beam and support are printed in embodiments of the invention can also be set directly at the surface of print platform in paper advance mechanism, installation is printed the guide rail beam place direction of dolly parallel with the cantilever place direction for installing print platform.To improve print speed, the present invention can also be arranged above multiple printing dollies and guide rail beam and support in paper advance mechanism.

A kind of flow chart of Method of printing of the inkjet-printing device of Fig. 5 present invention, the Method of printing includes spraying ink droplet by the shower nozzle for being installed on printing dolly, and by the solidification equipment for being arranged on printing dolly two ends makes ink droplet solidification realize printing to object irradiation ultraviolet radiation to be printed, support carries out reciprocating relatively in the first direction relative to object to be printed, and printing dolly carries out step motion along the second direction orthogonal with first direction relative to object to be printed；The Method of printing comprises the steps：First step S01, the distance between plane and object to be printed where the second drive mechanism of regulation makes printing dolly top nozzle is the distance suitable for printing；Second step S02, while making support be moved to the other end from one end relative to the first object to be printed in the first direction, while irradiation ultraviolet radiation solidifies ink droplet in first on from printhead to the first print platform object injection ink droplet, and self-curing device to be printed；3rd step S03, makes printing dolly be relatively moved in a second direction relative to the first object to be printed in the state of the other end；4th step S04, while making support move one end from the other end relative to object to be printed in the first direction, while the ink droplet sprayed from printhead is superimposed on the ink droplet on the first object to be printed being attached in the above-mentioned first step on the first print platform, and irradiation ultraviolet radiation solidifies ink droplet in self-curing device；5th step S05, judges whether the image on the first image to be printed has printed, and the printing of next object to be printed is entered if having printed；If not printed, above-mentioned second step S02, the 3rd step S03 and the 4th step S04 are repeated until having printed image on the first object to be printed；6th step S06, paper advance mechanism rotation the second object to be printed of supply；Above-mentioned second step S02, the 3rd step S03, the 4th step S04 and the 5th step S05 are repeated until having printed image on the second object to be printed；7th step S07, judges whether that all objects to be printed have been printed, and terminates printing if having printed；If not printed, above-mentioned second step S02, the 3rd step S03, the 4th step S04, the 5th step S05 and the 6th step S06 are repeated until all objects to be printed have been printed.

In above-mentioned first step S01, in addition to operating personnel install the first object to be printed to the 8th object to be printed on the first print platform to the 8th print platform.

In above-mentioned 6th step S06, in addition to while paper advance mechanism rotation the second object to be printed of supply, control system control printing dolly is retracted into initial printing position in a second direction.

In above-mentioned 6th step, while being additionally included in paper advance mechanism rotation the second object to be printed of supply, operating personnel remove the printed first object to be printed on the first print platform, and install another unprinted object to be printed.

In above-mentioned 7th step S07, in addition to terminate after printing, control system control printing dolly is retracted into initial printing position in a second direction.

Fig. 6 is the flow chart of another Method of printing of the inkjet-printing device of the present invention, Method of printing includes spraying ink droplet by the printhead being installed on printing dolly, and by the solidification equipment for being arranged on printing dolly two ends makes ink droplet solidification realize printing to object irradiation ultraviolet radiation to be printed, support is carried out reciprocating relatively in the first direction relative to object to be printed, and printing dolly is relatively moved along the second direction orthogonal with first direction relative to object to be printed；Method of printing comprises the steps：First step S001, the distance between plane and object to be printed where the second drive mechanism of regulation makes printing dolly top nozzle is the distance suitable for printing；Second step S002, while making support be moved to the other end from one end relative to the first object to be printed in the first direction, while irradiation ultraviolet radiation solidifies ink droplet in first on from printhead to the first print platform object injection ink droplet, and self-curing device to be printed；3rd step S003, while making support move one end from the other end relative to object to be printed in the first direction, while the ink droplet sprayed from printhead is superimposed on the ink droplet on the first object to be printed being attached in the above-mentioned first step on the first print platform, and irradiation ultraviolet radiation solidifies ink droplet in self-curing device；4th step S004, is relatively moved relative to the first object to be printed in a second direction in the state of making printing dolly at one end；5th step S005, judges whether the image on the first image to be printed has printed, and the printing of next object to be printed is entered if having printed；If not printed, above-mentioned second step S002, the 3rd step S003 and the 4th step S004 are repeated until having printed image on the first object to be printed；6th step S006, paper advance mechanism rotation the second object to be printed of supply；Above-mentioned second step S002, the 3rd step S003, the 4th step S004, the 5th step S005 are repeated until having printed image on the second object to be printed；7th step S007, judges whether that all objects to be printed have been printed, and terminates printing if having printed；If not printed, above-mentioned second step S002, the 3rd step S003, the 4th step S004, the 5th step S005, the 6th step S006 are repeated until all objects to be printed have been printed.

In the above-mentioned first step, in addition to operating personnel install the first object to be printed to the 8th object to be printed on the first print platform to the 8th print platform.

In above-mentioned 6th step, while being additionally included in paper advance mechanism rotation the second object to be printed of supply, control system control printing dolly is retracted into initial printing position in a second direction.

In above-mentioned 7th step, in addition to terminate after printing, control system control printing dolly is retracted into initial printing position in a second direction.

It is to be noted that any deformation made according to the embodiment of the present invention, the scope that spirit and claim all without departing from the present invention are recorded.

Claims

A kind of inkjet-printing device, including：

At least one printhead is installed on one printing dolly, the printing dolly；

One support, one first drive mechanism is set on the support, first drive mechanism is used to drive the printing dolly to move forward and backward along the second direction vertical with guide rail beam, and the support is moved left and right with a constant speed along the first direction parallel with guide rail beam substantially；

One paper advance mechanism, the paper advance mechanism supplies object to be printed in the way of intermittent rotary；

One control system, the control system controls the work of the paper advance mechanism, the support, the printing dolly and the printhead.
Inkjet-printing device as claimed in claim 1, it is characterized in that, the support from one end on the first direction to be moved to the other end, and the mode for returning to described one end from the other end is relatively moved relative to object to be printed, the printing dolly is relatively moved in the state of described one end along the second direction relative to object to be printed.
Inkjet-printing device as claimed in claim 1, it is characterized in that, the support from described one end on the first direction to be moved to after the other end, the printing dolly is relatively moved in the state of the other end along the second direction relative to object to be printed, and then the support is moved to described one end along the first direction from the other end relative to object to be printed.
Inkjet-printing device as claimed in claim 1, it is characterised in that one second drive mechanism is also set up on the support, the second drive mechanism driving printing dolly moves up and down along the third direction perpendicular to plane where print media.
Inkjet-printing device as claimed in claim 1, it is characterized in that, the paper advance mechanism includes at least being used for print platform, a base and one the 3rd drive mechanism of two placement objects to be printed, along the circumferential direction array is arranged on the base print platform, and the 3rd drive mechanism drives the print platform to be rotated around base central shaft.
Inkjet-printing device as claimed in claim 5, it is characterised in that the print platform is connected by spiral arm with base central shaft.
Inkjet-printing device as claimed in claim 1, it is characterised in that one solidification equipment is set respectively in the left and right ends of the printing dolly.
The Method of printing of inkjet-printing device according to any one in claim 1-7, it is characterized in that, the Method of printing sprays ink droplet by the printhead being installed on the printing dolly, and by the solidification equipment for being arranged on the printing dolly two ends makes ink droplet solidification realize printing to object irradiation ultraviolet radiation to be printed, the support is carried out reciprocating relatively along the first direction relative to object to be printed, and the printing dolly is relatively moved along the second direction orthogonal with the first direction relative to object to be printed；The print platform is around its base central shaft intermittent rotary to supply object to be printed, and the Method of printing comprises the steps：

The first step, while making the support be moved to the other end from described one end relative to the first object to be printed in the first direction, while the first object injection ink droplet to be printed on from the printhead to the first print platform, and solidify ink droplet from irradiation ultraviolet radiation in the solidification equipment；

Second step, makes the printing dolly be relatively moved in the state of the other end along the second direction relative to the first object to be printed；

3rd step, while making the support move described one end from the other end relative to object to be printed along the first direction, while the ink droplet sprayed from the printhead is superimposed on the ink droplet on the first object to be printed being attached in the above-mentioned first step on the first print platform, and solidify ink droplet from irradiation ultraviolet radiation in the solidification equipment；

4th step, repeats the above-mentioned first step, second step and the 3rd step until having printed image on the first object to be printed；

5th step, while make the next object to be printed of paper advance mechanism rotation supply, while making the printing dolly return to the initial position of the second direction；Then the above-mentioned first step, second step, the 3rd step, the 4th step are repeated until having printed image on the second object to be printed；

6th step, repeats the above-mentioned first step to the 5th step until all objects to be printed have been printed.
The Method of printing of inkjet-printing device according to any one in claim 1-7, it is characterized in that, the Method of printing sprays ink droplet by the printhead being installed on the printing dolly, and by the solidification equipment for being arranged on the printing dolly two ends makes ink droplet solidification realize printing to object irradiation ultraviolet radiation to be printed, the support is carried out reciprocating relatively along the first direction relative to object to be printed, and the printing dolly is relatively moved along the second direction orthogonal with the first direction relative to object to be printed；The print platform is around its base central shaft intermittent rotary to supply object to be printed, and the Method of printing comprises the steps：

The first step, while making the support be moved to the other end from described one end relative to the first object to be printed in the first direction, while the first object injection ink droplet to be printed on from the printhead to the first print platform, and solidify ink droplet from irradiation ultraviolet radiation in the solidification equipment；

Second step, while making the support move described one end from the other end relative to the first object to be printed along the first direction, while the ink droplet sprayed from the printhead is superimposed on the ink droplet on the first object to be printed being attached in the above-mentioned first step on the first print platform, and solidify ink droplet from irradiation ultraviolet radiation in the solidification equipment；

3rd step, makes the printing dolly be relatively moved in the state of described one end along the second direction relative to the first object to be printed；

4th step, repeats the above-mentioned first step, second step and the 3rd step until having printed image on the first object to be printed；

5th step, while making paper advance mechanism rotation second object to be printed of supply, while making the printing dolly return to initial position before printing along the second direction, the above-mentioned first step, second step, the 3rd step, the 4th step are then repeated until having printed image on the second object to be printed；

6th step, repeats the above-mentioned first step to the 5th step until all objects to be printed have been printed.