CN102166881A - Printing system capable of realizing on-line laser die cutting - Google Patents

Abstract

The invention discloses a printing system capable of realizing on-line laser die cutting, which comprises a rotary printing-machine and a laser die-cutting machine, wherein the laser die-cutting machine at least comprises central control units in a rotary coding control subunit, a colour code information control subunit and a laser die-cutting control subunit; the laser die-cutting control subunit receives preset die-cutting shape information and die-cutting position information, and converts the die-cutting shape information and the die-cutting position information into corresponding control electrical signals; the colour code information control subunit converts colour code information into a colour code information control electrical signal and transmits the colour code information control electrical signal to the laser die-cutting machine; the rotary coding control subunit converts a pulse signal into a roray coding control electrical signal; and the laser die-cutting machine is controlled to start cutting after receiving the colour code information control electrical signal, and is controlled to cut a preset shape at a preset position of a continuous printing stock according to a die-cutting shape control electrical signal and a die-cutting position information control electrical signal. The printing system disclosed by the invention has the advantages of being capable of carrying out massive printing, and realizing on-line laser die-cutting simultaneously.

Description

Can be implemented in the print system of line laser cross cutting

Technical field

The present invention relates to a kind of print system that on rotary press, is implemented in the line laser cross cutting.

Background technology

Existing rotary press, adopt modularized design, arbitrary printing unit or seal post-processing unit are made single module, can be installed in the necessary position of complete machine as required, this modular construction, various module various combinations can be realized, the optional position that the client wishes can be placed on as required.General satellite-type rotary press can disposablely be finished multiple printing functionalities such as offset printing, flexo, protruding seal, gravure, silk-screen.This rotary press only is suitable for having again in enormous quantities the product printing of long time.

No matter how complicated its module is for rotary press, all only has printing functionality, to the printed matter that needs cross cutting that produces, need carry out cross cutting at next process, traditional cross cutting generally is the mechanical type cross cutting, needs to use the cross cutting mould, add that craft or semi-automatic mould cutter carry out cross cutting, problems such as this die-cutting machine is the defeated paper mode of batch (-type), and it exists work efficiency low, and the cross cutting cutter is fragile; In order to solve the problem that the cross cutting cutter is fragile and the cross cutting Mold Making bothers, Chinese patent literature CN2860826 discloses a kind of digital control laser die-cutting machine, and it is cumbersome to have solved original mechanical die-cutting process, the high and inefficient problem of cost.But, this digital control laser die-cutting machine is the defeated paper mode of batch (-type) equally, its paper feed speed is fixed, it can not directly be used for being used in combination with rotary press, because, the print speed printing speed of existing rotary press is to need to change, promptly when beginning to print, for the manual observation printing quality, need be with lower speed printing, so that observe, and in case after the printing normally, in order to enhance productivity, need with higher speed printing, the speed of rotary press can be adjusted in 0 meter/minute to 200 meters/minute scope mostly now.

Summary of the invention

The present invention seeks to overcome above-mentioned defective, provide a kind of and both can print in enormous quantities, again the print system of canbe used on line laser die cutting synchronously.

Technical scheme of the present invention is: a kind of print system that is implemented in the line laser cross cutting is provided, comprises:

One rotary press;

One mode of laser cutter, described mode of laser cutter be arranged at described rotary press be completed for printing after with rolling before;

One central control unit, described central control unit comprise rotary coding control subelement, colour code information control subelement and laser die cutting control subelement at least; Described central control unit is used to coordinate each subelement work;

Described laser die cutting control subelement comprises die-cut shapes control module and cross cutting position control module, described die-cut shapes control module receives the die-cut shapes information that presets, and this die-cut shapes information translation become the die-cut shapes control signal of telecommunication, flow to the mode of laser cutter; Described cross cutting position control module receives the cross cutting positional information on sheet-type printable matter that presets, and converts the cross cutting positional information to the cross cutting positional information control signal of telecommunication, flows to the mode of laser cutter;

Appropriate location at described mode of laser cutter is provided with color mark sensor, described color mark sensor is given the colour code information conveyance on the sheet-type printable matter that captures on the colour code information control subelement of central control unit, the colour code information translation that described colour code information control subelement is caught color mark sensor becomes the colour code information control signal of telecommunication, and passes to the mode of laser cutter;

One rotary encoder is set on the driven pulley of described rotary press, described rotary encoder is converted to pulse signal with the angular speed of described driven pulley, and being transferred to rotary coding control subelement, described rotary coding control subelement converts pulse signal to the rotary coding control signal of telecommunication;

Make sheet-type printable matter with the cutting zone of the speed of service identical by described mode of laser cutter with rotary press;

Described mode of laser cutter is after receiving the described colour code information control signal of telecommunication, control described mode of laser cutter and begin cutting, and according to the die-cut shapes control signal of telecommunication and cross cutting positional information control signal of telecommunication control mode of laser cutter in the precalculated position of sheet-type printable matter, cut out reservation shape; The mode of laser cutter cuts with the cutting speed that adapts with the sheet-type printable matter speed of service according to the described rotary coding control signal of telecommunication.

Among the present invention, described rotary press is digital printer, offset press, flexible printing press, embossing machine, intaglio printing press, lines intaglio printing press or screen printer.Perhaps described rotary press is satellite-type rotary press or the set type rotary press that is combined arbitrarily by two or more different printing unit.

Among the present invention, described sheet-type printable matter is continuous paper, continuous plastic sheeting or continuous aluminizer.Perhaps, described sheet-type printable matter is adhesive sticker or composite.

Described laser die cutting control subelement also comprises mark shape control module and mark position control module, the mark literal that described mark shape control module reception is preset is or/and pattern form information, and with this mark literal or/and the pattern form information translation becomes the mark shape control signal of telecommunication, flow to the mode of laser cutter; Described mark position control module receives the mark positional information on sheet-type printable matter that presets, and converts the mark positional information to the mark positional information control signal of telecommunication, flows to the mode of laser cutter; Described laser die cutting control subelement also comprises the laser energy control module, described laser energy control module is controlled the laser energy of the signal of telecommunication, the cross cutting positional information control signal of telecommunication, the mark shape control signal of telecommunication and mark positional information control change in electric mode of laser cutter according to die-cut shapes, realize that the mode of laser cutter, can marking on printed matter in cross cutting.Information such as serial number date of manufacture for example.

The thickness of the described sheet-type printable matter among the present invention can be selected between 20～350 μ m.

The present invention is provided with the mode of laser cutter after being completed for printing of existing rotary press with before the rolling, and mode of laser cutter Stimulated Light cross cutting control subelement control, realize online cross cutting, when rotary press speed is slow, the mode of laser cutter slows down cross cutting speed according to the rotary coding control signal of telecommunication, to adapt to the speed of service of sheet-type printable matter, indeformable with the figure that guarantees cross cutting, otherwise, when rotary press speeds up, the mode of laser cutter is accelerated cross cutting speed according to the rotary coding control signal of telecommunication, to adapt to the speed of service of sheet-type printable matter, reaches the indeformable purpose of figure of cross cutting.So just realized both can printing in enormous quantities, again the purpose of canbe used on line laser die cutting synchronously.

Description of drawings

Fig. 1 is the planar structure schematic diagram of an embodiment of the present invention.

Fig. 2 is the planar structure schematic diagram of the another kind of embodiment of the present invention.

The specific embodiment

See also Fig. 1, Fig. 1 is the planar structure schematic diagram of an embodiment of the present invention.It is a kind of print system that is implemented in the line laser cross cutting, comprises rotary press 1, and the rotary press among this embodiment is an intaglio printing press; Front at described intaglio printing press, be provided with paper placing machine structure 2 and lead paper deviation correction mechanism 3, behind described intaglio printing press, be provided with rolling-up mechanism 4, between described rotary press 1 and rolling-up mechanism, be provided with mode of laser cutter 5, this mode of laser cutter 5 is produced by Xi'an company, also can be transformed and draw with the disclosed digital control laser die-cutting machine of Chinese patent literature CN2860826; One central control unit 6, described central control unit 6 is arranged on the rotary press 1, and described central control unit 6 also can independently be provided with, as long as handled easily; Described central control unit 6 comprises rotary coding control subelement, colour code information control subelement and laser die cutting control subelement; Main control subelement and data storing sub-units, described central control unit are used to coordinate each subelement work; (all subelements of central control unit all do not draw in the drawings, down together).

Described laser die cutting control subelement comprises die-cut shapes control module and cross cutting position control module, described die-cut shapes control module receives the die-cut shapes information that presets, and this die-cut shapes information translation become the die-cut shapes control signal of telecommunication, flow to mode of laser cutter 5; Described cross cutting position control module receives the cross cutting positional information on sheet-type printable matter that presets, and converts the cross cutting positional information to the cross cutting positional information control signal of telecommunication, flows to mode of laser cutter 5; Be provided with color mark sensor 7 in the front of described mode of laser cutter, described color mark sensor 7 controls subelement for the colour code information of central control unit 6 the colour code information conveyance on the sheet-type printable matter 8 that captures, and (sheet-type printable matter 8 in this example is continuous papers, down together, certainly, also continuous plastic sheeting of sheet-type printable matter 8 or continuous aluminizer etc.), the colour code information translation that described colour code information control subelement is caught color mark sensor becomes the colour code information control signal of telecommunication, and passes to mode of laser cutter 5.

One rotary encoder 9 is set on the driven pulley of described rotary press 1, described rotary encoder 9 is converted to pulse signal with the angular speed of described driven pulley, and being transferred to rotary coding control subelement, described rotary coding control subelement converts pulse signal to the rotary coding control signal of telecommunication;

Make sheet-type printable matter 8 with the cutting zone of the speed of service identical by described mode of laser cutter 5 with rotary press 1; Described mode of laser cutter 5 is after receiving the described colour code information control signal of telecommunication, control described mode of laser cutter 5 and begin cutting, and according to the die-cut shapes control signal of telecommunication and cross cutting positional information control signal of telecommunication control mode of laser cutter 5 in the precalculated position of sheet-type printable matter 8, cut out reservation shape; Mode of laser cutter 5 cuts with the cutting speed that adapts with sheet-type printable matter 8 speeds of service according to the described rotary coding control signal of telecommunication.

Obviously, the rotary press in the present embodiment 1 can also be independent rotary press such as digital printer, offset press, embossing machine, flexible printing press, lines intaglio printing press or screen printer.

See also Fig. 2, Fig. 2 is the planar structure schematic diagram of the another kind of embodiment of the present invention.Enforcement embodiment illustrated in fig. 2 and shown in Figure 1 is compared, its general structure is identical, and different is the satellite-type rotary press 10 (also can be the set type rotary press) that described rotary press 1 is combined into by two different rotary printings unit (offset print unit 11 and a gravure unit 12 are formed).Obviously, the satellite-type rotary press 10 in the present embodiment also can by in offset print unit, flexo unit, protruding impression unit, gravure unit, lines gravure unit and the silk-screen unit arbitrarily two or more printing element combine.

Among the present invention, described rotary press can be meant independent digital printer, offset press, flexible printing press, intaglio printing press, lines intaglio printing press or screen printer; Also can be (also to claim offset printing seat, flexo seat in the industry by digital printing unit, offset print unit, flexo unit, protruding impression unit, gravure unit, lines gravure unit and silk-screen unit ... Deng) in any satellite-type rotary press or the set type rotary press that combine of two or more printing machine.

Sheet-type printable matter among the present invention can be continuous paper, continuous plastic sheeting (PVC, OPP etc.) or continuous aluminizer etc., also can be adhesive sticker and composite etc.The thickness of sheet-type printable matter can be selected between 20～350 μ m.

Above-mentioned laser die cutting control subelement can also be designed to, comprise mark shape control module and mark position control module, the mark literal that described mark shape control module reception is preset is or/and pattern form information, and with this mark literal or/and the pattern form information translation becomes the mark shape control signal of telecommunication, flow to the mode of laser cutter; Described mark position control module receives the mark positional information on sheet-type printable matter that presets, and converts the mark positional information to the mark positional information control signal of telecommunication, flows to the mode of laser cutter; Described laser die cutting control subelement also comprises the laser energy control module, described laser energy control module is controlled the laser energy of the signal of telecommunication, the cross cutting positional information control signal of telecommunication, the mark shape control signal of telecommunication and mark positional information control change in electric mode of laser cutter according to die-cut shapes, realize that the mode of laser cutter, can marking on printed matter in cross cutting.Information such as serial number date of manufacture for example.

The present invention can also be designed to (not drawing), and a kind of print system that is implemented in the line laser cross cutting comprises:

One rotary press, described rotary press comprise a digital printing unit at least;

One mode of laser cutter, described mode of laser cutter be arranged at described rotary press be completed for printing after with rolling before;

One central control unit, described central control unit comprise rotary coding control subelement, colour code information control subelement, laser die cutting control subelement and digital printing control subelement at least; Described central control unit is used to coordinate each subelement work;

Described digital printing control subelement comprises the digital printing literal or/and pattern control module and digital printing position and cross cutting position control module, described digital printing literal is or/and the pattern control module receives the literal preset or/and pattern-information, and with literal or/and pattern-information converts literal to the pattern control signal of telecommunication, flow to the digital printing unit; Described digital printing position and cross cutting position control module described digital printing position and cross cutting position control module receive digital printing on sheet-type printable matter and the cross cutting positional information that presets, and convert digital printing and cross cutting positional information to the digital printing information control signal of telecommunication and the cross cutting positional information control signal of telecommunication, flow to digital printer and mode of laser cutter respectively;

Described laser die cutting control subelement comprises the die-cut shapes control module, and described die-cut shapes control module receives the die-cut shapes information that presets, and this die-cut shapes information translation is become the die-cut shapes control signal of telecommunication, flows to the mode of laser cutter;

Appropriate location at described digital seal machine or mode of laser cutter is provided with color mark sensor, described color mark sensor is given the colour code information conveyance on the sheet-type printable matter that captures on the colour code information control subelement of central control unit, the colour code information translation that described colour code information control subelement is caught color mark sensor becomes the colour code information control signal of telecommunication, and passes to digital printer and mode of laser cutter respectively;

One rotary encoder is set on the driven pulley of described rotary press, described rotary encoder is converted to pulse signal with the angular speed of described driven pulley, and being transferred to rotary coding control subelement, described rotary coding control subelement converts pulse signal to the rotary coding control signal of telecommunication;

Make sheet-type printable matter with the cutting zone of the speed of service identical by described mode of laser cutter with rotary press;

Described digital printer is after receiving the described colour code information control signal of telecommunication, control described digital printer and begin to spray literal and/or pattern, and according to literal or/and the pattern control signal of telecommunication and the digital printing information control signal of telecommunication and cross cutting positional information control signal of telecommunication control digital printer in the precalculated position of sheet-type printable matter, print out predetermined literal and/or pattern;

Described mode of laser cutter is after receiving the described colour code information control signal of telecommunication, control described mode of laser cutter and begin cutting, and control the signal of telecommunication and the digital printing information control signal of telecommunication and the cross cutting positional information control signal of telecommunication according to die-cut shapes and control the mode of laser cutter in the precalculated position of sheet-type printable matter, cut out reservation shape; The mode of laser cutter cuts with the cutting speed that adapts with the sheet-type printable matter speed of service according to the described rotary coding control signal of telecommunication.

The various examples of the above, it is preferred embodiments of the present invention, be not to be used for limiting practical range of the present invention,, be included in the present patent application claim so all equivalences of doing according to described feature of the present patent application claim and principle change or modify.

Claims (10)

1. the print system that can be implemented in the line laser cross cutting is characterized in that, comprising:

One rotary press;

One mode of laser cutter, described mode of laser cutter be arranged at described rotary press be completed for printing after with rolling before;

One central control unit, described central control unit comprise rotary coding control subelement, colour code information control subelement and laser die cutting control subelement at least; Described central control unit is used to coordinate each subelement work;

Described laser die cutting control subelement comprises die-cut shapes control module and cross cutting position control module, described die-cut shapes control module receives the die-cut shapes information that presets, and this die-cut shapes information translation become the die-cut shapes control signal of telecommunication, flow to the mode of laser cutter; Described cross cutting position control module receives the cross cutting positional information on sheet-type printable matter that presets, and converts the cross cutting positional information to the cross cutting positional information control signal of telecommunication, flows to the mode of laser cutter;

Appropriate location at described mode of laser cutter is provided with color mark sensor, described color mark sensor is given the colour code information conveyance on the sheet-type printable matter that captures on the colour code information control subelement of central control unit, the colour code information translation that described colour code information control subelement is caught color mark sensor becomes the colour code information control signal of telecommunication, and passes to the mode of laser cutter;

One rotary encoder is set on the driven pulley of described rotary press, described rotary encoder is converted to pulse signal with the angular speed of described driven pulley, and being transferred to rotary coding control subelement, described rotary coding control subelement converts pulse signal to the rotary coding control signal of telecommunication;

Make sheet-type printable matter with the cutting zone of the speed of service identical by described mode of laser cutter with rotary press;

Described mode of laser cutter is after receiving the described colour code information control signal of telecommunication, control described mode of laser cutter and begin cutting, and according to the die-cut shapes control signal of telecommunication and cross cutting positional information control signal of telecommunication control mode of laser cutter in the precalculated position of sheet-type printable matter, cut out reservation shape; The mode of laser cutter cuts with the cutting speed that adapts with the sheet-type printable matter speed of service according to the described rotary coding control signal of telecommunication.

2. the print system that is implemented in the line laser cross cutting according to claim 1 is characterized in that, described rotary press is digital printer, offset press, flexible printing press, embossing machine, intaglio printing press, lines intaglio printing press or screen printer.

3. the print system that is implemented in the line laser cross cutting according to claim 1 is characterized in that, described rotary press is satellite-type rotary press or the set type rotary press that is combined arbitrarily by two or more different printing unit.

4. the print system that is implemented in the line laser cross cutting according to claim 1, it is characterized in that, described laser die cutting control subelement also comprises mark shape control module and mark position control module, the mark literal that described mark shape control module reception is preset is or/and pattern form information, and with this mark literal or/and the pattern form information translation becomes the mark shape control signal of telecommunication, flow to the mode of laser cutter; Described mark position control module receives the mark positional information on sheet-type printable matter that presets, and converts the mark positional information to the mark positional information control signal of telecommunication, flows to the mode of laser cutter; Described laser die cutting control subelement also comprises the laser energy control module, described laser energy control module is controlled the laser energy of the signal of telecommunication, the cross cutting positional information control signal of telecommunication, the mark shape control signal of telecommunication and mark positional information control change in electric mode of laser cutter according to die-cut shapes, realize that the mode of laser cutter, can marking on printed matter in cross cutting.

5. the print system that is implemented in the line laser cross cutting according to claim 1 is characterized in that, described sheet-type printable matter is continuous paper, continuous plastic sheeting or continuous aluminizer.

6. the print system that is implemented in the line laser cross cutting according to claim 1 is characterized in that,

Described sheet-type printable matter is adhesive sticker or composite.

7. according to claim 5 or the 6 described print systems that are implemented in the line laser cross cutting, it is characterized in that the thickness of described sheet-type printable matter is 20～350 μ m.

8. the print system that can be implemented in the line laser cross cutting is characterized in that, comprising:

One rotary press, described rotary press comprise a digital printing unit at least;

One mode of laser cutter, described mode of laser cutter be arranged at described rotary press be completed for printing after with rolling before;

One central control unit, described central control unit comprise rotary coding control subelement, colour code information control subelement, laser die cutting control subelement and digital printing control subelement at least; Described central control unit is used to coordinate each subelement work;

Described digital printing control subelement comprises the digital printing literal or/and pattern control module and digital printing position and cross cutting position control module, described digital printing literal is or/and the pattern control module receives the literal preset or/and pattern-information, and with literal or/and pattern-information converts literal to the pattern control signal of telecommunication, flow to the digital printing unit; Described digital printing position and cross cutting position control module described digital printing position and cross cutting position control module receive digital printing on sheet-type printable matter and the cross cutting positional information that presets, and convert digital printing and cross cutting positional information to the digital printing information control signal of telecommunication and the cross cutting positional information control signal of telecommunication, flow to digital printer and mode of laser cutter respectively;

Described laser die cutting control subelement comprises the die-cut shapes control module, and described die-cut shapes control module receives the die-cut shapes information that presets, and this die-cut shapes information translation is become the die-cut shapes control signal of telecommunication, flows to the mode of laser cutter;

Appropriate location at described digital seal machine or mode of laser cutter is provided with color mark sensor, described color mark sensor is given the colour code information conveyance on the sheet-type printable matter that captures on the colour code information control subelement of central control unit, the colour code information translation that described colour code information control subelement is caught color mark sensor becomes the colour code information control signal of telecommunication, and passes to digital printer and mode of laser cutter respectively;

One rotary encoder is set on the driven pulley of described rotary press, described rotary encoder is converted to pulse signal with the angular speed of described driven pulley, and being transferred to rotary coding control subelement, described rotary coding control subelement converts pulse signal to the rotary coding control signal of telecommunication;

Make sheet-type printable matter with the cutting zone of the speed of service identical by described mode of laser cutter with rotary press;

Described digital printer is after receiving the described colour code information control signal of telecommunication, control described digital printer and begin to spray literal and/or pattern, and according to literal or/and the pattern control signal of telecommunication and the digital printing information control signal of telecommunication and cross cutting positional information control signal of telecommunication control digital printer in the precalculated position of sheet-type printable matter, print out predetermined literal and/or pattern;

Described mode of laser cutter is after receiving the described colour code information control signal of telecommunication, control described mode of laser cutter and begin cutting, and control the signal of telecommunication and the digital printing information control signal of telecommunication and the cross cutting positional information control signal of telecommunication according to die-cut shapes and control the mode of laser cutter in the precalculated position of sheet-type printable matter, cut out reservation shape; The mode of laser cutter cuts with the cutting speed that adapts with the sheet-type printable matter speed of service according to the described rotary coding control signal of telecommunication.

9. the print system that is implemented in the line laser cross cutting according to claim 8 is characterized in that, described rotary press is offset press, flexible printing press, embossing machine, intaglio printing press, lines intaglio printing press or screen printer.

10. the print system that is implemented in the line laser cross cutting according to claim 9 is characterized in that, described rotary press is satellite-type rotary press or the set type rotary press that is combined arbitrarily by two or more different printing unit.

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