CN103955113A - Printing plate making equipment and plate making method - Google Patents
Printing plate making equipment and plate making method Download PDFInfo
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- CN103955113A CN103955113A CN201410197628.5A CN201410197628A CN103955113A CN 103955113 A CN103955113 A CN 103955113A CN 201410197628 A CN201410197628 A CN 201410197628A CN 103955113 A CN103955113 A CN 103955113A
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Abstract
The invention provides printing plate making equipment and a plate making method. The equipment comprises an exposure device, a print image imaging device, a printing plate carrying device and a timing control device, wherein the exposure device comprises an exposure light source and an exposure light source control device; the exposure light source, the print image imaging device and the printing plate carrying device are coaxially arranged in sequence; the exposure light source is used for irradiating light to cure a photosensitive material loaded on a printing plate; the print image imaging device is used for forming a target image to replace a film, wherein the target image masks the light from the exposure light source so that a corresponding exposure image is formed on the printing plate. Therefore, accurate plate making and accurate overprinting are achieved, a film making process is omitted, an environmentally friendly plate making process which reduces the production cost and environmental pollution is formed, and a variety of defects in the prior art, particularly in traditional plate making, CTP and CTcP plate making equipment and corresponding processes are solved.
Description
Technical field
The invention belongs to print field, particularly a kind of plate making equipment and method for platemaking.
Background technology
Mask-making technology is the important step in technique before printing, and plays the part of this very important role in whole printing-flow, and the color of printed matter, contrast and alignment are had to extremely important impact.Along with scientific and technological development, mask-making technology also constantly develops thereupon, from conventional film plate-making, develop into wax spray plate-making, ink-jetting forme-producing, laser plate-making of so far widespread use etc., development along with computer technology, mask-making technology combines with it gradually, and towards efficient, environmental protection, direction development cheaply, thereby formed Computer To Plate technology.
So-called Computer To Plate (Computer to Plate, be called for short CTP) be exactly use computing machine original copy character image through digitized processing and slot man, directly in the enterprising line scanning imaging of forme, then by postprocessing working procedures such as development, photographic fixing or exempt from aftertreatment and make forme.Compare with traditional film printing down technique have operation simple, without advantages such as slice, printing down and plate-making cycle are short.
Yet the application of Computer To Plate equipment is limited by an important factor, i.e. light source restriction, superlaser has very important impact to plate-making quality and production efficiency.Adopt the restrictive factor of laser plate-making, the size of laser facula becomes negative correlation with energy efficiency, thereby affect ablation, imaging efficiency, complex process, capacity usage ratio is low, especially in the situation that imaging resolution is had relatively high expectations, accuracy requirement is higher, and laser facula is less, and energy efficiency is lower, ablation, imaging time are longer, thereby have elongated the production cycle.
No matter above-mentioned CTP also or CTcP platemaking equipment and technique, all relate to LASER Light Source, LASER Light Source precision and yields that in plate-making process, directly impact is made a plate, wherein mask-making technology parameter comprises: big or small the determining of laser facula (comprising dot spacing and some size), single-point ablation time, ablated area, imaging efficiency, laser power, dutycycle, plate threshold value, rate travel, step rate, lens ratio etc.For improving plate-making quality and plate-making efficiency, preferably technique effect is adjusted and obtained to above-mentioned technological parameter is an extremely long job consuming time.In addition, along with mission life prolongation and the performance degradation of LASER Light Source, technician need adjust its running parameter and relevant other running parameters at any time, causes different releases' the accumulation of error, finally causes chromatography precision decline, printing quality to reduce.
Existing research view is introduced new light source to overcome above-mentioned defect, take Chinese patent application (application number: 201210399834.5) be example, it discloses a kind of making apparatus and method for making of screen printing screens, it specifically discloses platemaking equipment and has following structure: comprise setting gradually: a photoresists apparatus for coating, at pretreated half tone surface-coated photoresists; One plate burning device, it further comprises: objective table, for the half tone of coating photoresists is fixed; Printing down light source, comprising: according to the LED lamp of certain arranged with interval; Light source control device, controls LED lamp for the forme pattern of making as required, makes LED lamp directly in the half tone face exposure of coating photoresists, go out forme pattern; One cleaning equipment, for removing photoresists remaining on half tone.Described LED lamp is UVLED lamp.Concrete preparation technology is: S1, silk screen is carried out to pre-service, described pre-service comprises: the net that stretches tight, clean silk screen and dry; S2, to pretreated half tone surface-coated photoresists; S3, by coating photoresists half tone be fixed on objective table; S4, light source control device receive the data of the forme pattern of the needs making of inputting, and regulate the light on and off of LED lamp, then make LED lamp go out forme pattern in the silk screen face exposure of coating photoresists; Remaining photoresists on the wire side of S5, removing half tone: unexposed photoresists are rinsed, and the photoresists after exposure are retained, form a version film.The basic thinking that this application adopts is, adopt the pointolite of array, be LED array as exposure light source, by controlling the switching of LED lamp independent in array, form required exposing patterns, after forme is exposed, forme is solidified in the bright region of LED lamp, and not exposing in the region that LED lamp goes out, thereby has save the film, be the use of film, realized direct plate-making.Yet, there is following shortcoming in this technology: 1. precision is not high, as everyone knows, LED lamp is pointolite, the array that LED lamp forms is that series of LED luminescence unit is spaced formation, the light that single led lamp sends is parallel beam completely not, there is equally scattered light in the interval between LED lamp, the luminous of single led lamp propagated with the form a little less than strong edge, center, especially in the larger situation in LED lamp and forme interval, the light that is positioned at the LED lamp at image border place is radiated at and on forme, forms halation, thereby cause fuzzy exposure figure edge, cause imaging precision to decline, 2. cost is high, and LED array especially UVLED lamp conventionally adopts special semiconductor material, and this semiconductor material is that the whole lithography process of wafer forms, and conventionally adopts the growth of CVD method, and its cost is high, 3. poor fault tolerance, in LED array, easily because the factors such as production, maintenance form bad point, indivedual LED luminescence units can not be normally luminous, and due to process technology limit, be difficult to change indivedual LED particles, thereby cause monoblock LED array normally to use.
As can be seen here, in prior art, especially in the CTP of widespread use and CTcP mask-making technology, exist prior art level and solve the technology barrier that thinking is difficult to go beyond, in order to solve, the investment in fixed assets existing in prior art is large, light source maintenance cost is high, life period of equipment is short, consumables cost high-technology problem, need transformation mentality of designing badly, provide a kind of simple in structure, be easy to safeguard, the low next generation computer platemaking equipment of plate-making cost.
Summary of the invention
The object of this invention is to provide a kind of precision of making a plate high, be applicable to multiple conventional plate, the plate making equipment safeguarded of being easy to simple in structure, to realize accurate plate-making, accurate overprinting, release film production process, formation reduces production costs and the technique of the green plate-making of environmental pollution, solves in prior art all drawbacks that exist in especially CTP and CTcP platemaking equipment and technique.
Concrete, the present invention is achieved through the following technical solutions:
First, the invention provides a kind of plate making equipment, it is characterized in that, this equipment comprises: exposure device, printing images imaging device, forme bogey, time sequence control device; Described exposure device comprises exposure light source and exposure light source control device; Described exposure light source, printing images imaging device, forme bogey coaxially arrange successively; Described printing images imaging device is used to form target image to replace film, passes through the coverage of described target image from the light of described exposure light source, forms corresponding exposure image on described forme.
Particularly, described exposure light source is used for irradiation light to solidify the photosensitive material being carried on forme; Described exposure light source control device for control described exposure light source selection, open, close, and control exposure intensity and time; Described forme bogey, for carrying, mobile forme; Described time sequence control device for adjust comprise exposure light source control device, forme bogey and printing images imaging device respectively install work schedule.
As a kind of device of optionally realizing printing images imaging, one of concrete structure that can adopt is that described printing images imaging device comprises, the first deflection optical sheet, liquid crystal layer and the second deflection optical sheet; Described liquid crystal layer is located between the first deflection optical sheet and the second deflection optical sheet; On the surface that the first deflection optical sheet contacts with liquid crystal layer, be provided with the first transparent electrode layer; On the surface that the second deflection optical sheet contacts with liquid crystal layer, be provided with the second transparency conducting layer; The polarization direction angle of described the first deflection optical sheet and the second deflection optical sheet is 90 degree; By applying corresponding electric signal at the first transparent electrode layer and the second transparent electrode layer, the liquid crystal of respective regions in described liquid crystal layer is deflected, form described target image, cover exposure light source irradiation light; The region that liquid crystal deflection does not occur becomes light transmission state.
Can adopt external data sources as the Data Source of printing images imaging device, processing and control for ease of view data show, printing images imaging device also comprises data-interface, and for connecting computing machine, described computing machine is inputted printing images imaging device by view data.
For meeting different Production requirements, especially the needed wavelength requirement of the curing photochemical reaction of the photosensitive material of load on forme under different operating modes, exposure light source comprises multi-wavelength's ultraviolet source, multi-wavelength's infrared light supply, solidifies required wavelength select wherein one or more according to the photosensitive material of load on described forme.As the long operating mode of extensive stream time, more options list wavelength light source, as fixed configurations, can be changed the light source of other wavelength as required; As multiple batches of multiduty operating mode, light source that can pre-configured multi-wavelength, selects as required and switches.According to the performance of existing commercially available photo-curing material, described ultraviolet source is that wavelength is the light source of 320 ~ 450nm; Described infrared light supply is that wavelength is the light source of 760 ~ 1200nm.
For convenience of safeguarding and eliminating the error that optical diffraction brings, described printing images imaging device is installed on printing images imaging device riser guide, by printing images imaging device lifting motor actuation movement.
For the pollution that prevents from bringing in plate-making process, guarantee job stability and the plate-making precision of printing imaging device, described printing images imaging device is provided with decontamination film towards forme bogey one side.
Finally, the present invention also provides a kind of mask-making technology of applying above-mentioned plate making equipment, it is characterized in that, comprises the following steps:
(1) enter version, have the forme of photosensitive material be loaded into forme bogey and move to assigned address load;
(2) photomask forms, and computing machine is inputted printing images imaging device by data-interface by view data, and described printing images imaging device forms target image;
(3) exposure, exposure light source control device is selected the exposure light source of respective wavelength and is opened, and controls exposure intensity and time, and the light of exposure light source is through the coverage of described target image, light regional transmission photosensitive material solidifies, and forms corresponding exposure image on described forme;
(4) exposure light source control device cuts out exposure light source;
(5) move back version, forme bogey moves to assigned address by the forme after exposure.
In this process, what adopt that time sequence control device adjustment comprises exposure light source control device, forme bogey and printing images imaging device respectively installs work schedule.
The present invention has obvious beneficial effect than existing CTP, CTcP plate-making technology and traditional plate-making technology, is listed below:
(1) improve plate-making precision: the technological process of having saved sensitive film and preparation thereof comprises the loaded down with trivial details operation links such as darkroom exposure flushing, colour-separation drafting, printing down, the chemical reagent effectively having reduced in this process is used, reduce environmental pollution, be a kind of green plate-making technology; Reduce production cost, reduced image transfer number of times, improve picture quality, used Computer To Plate to substitute after film printing down, owing to not using film, the printing quality of printed matter has clear improvement, because image and site are not subject to tradition to print the impact of those mass attenuations in front technique.The forme of output, better quality, because the influence factors such as the dust on the film, scratch have not existed, edge, site is totally sharp keen, loyal original copy.(2) simplified equipment, adopt large area exposure light source to replace LASER Light Source, reduced equipment cost, maintenance, the maintenance link of LASER Light Source have been avoided, improved the utilization ratio of energy, realize the disposable exposure of large area, effectively improved long plate-making cycle and the ablation instability of laser facula scanning imagery, avoided the error of the layout technique in significantly imaging and become the stitching error in block scan.Can carry out seamless link with the original equipment of printing enterprise, realize the annex of general platemaking equipment is improved, reduce the dependence of equipment, guarantee lower equipment investment and improvement expenses, can meet the demand of different scales printing enterprise.(3) reduced production consumables cost: realized the universalization of plate, low to plate requirement, without special extraordinary plate, according to needs of production, conversion exposure light source, can realize the exposure of various plates in prior art.(4) alignment color correction is accurate, becomes version rate high.Reduce printing debug time and spillage of material.Owing to not needing forme location, so the better quality of forme, and can, because locating inaccurate need again plate-making, while avoiding being printed on the machine, not spend plenty of time school version.(5) applied widely, precision controllability is high.By regulating the size of the minimum display unit of printing images imaging device, can realize the controlled selection of precision, be applicable to different printing demand, adjust the plate-making cycle, rationally enhance productivity.
In a word, in the present invention, equipment is simple, production cost is low, it is simple to operate to use, imaging precision is controlled, chromatography is accurate, applied range, can meet the plate-making demand of different size, parameter request, efficiently solve the practical problemss such as existing Computer To Plate technique input cost is high, precision of images regulation and control are complicated, plate-making efficiency is low.
Accompanying drawing explanation
Fig. 1 is the skeleton view of plate making equipment in the specific embodiment of the invention;
Fig. 2 is the front view of plate making equipment in the specific embodiment of the invention;
Fig. 3 is the side view of plate making equipment in the specific embodiment of the invention;
Fig. 4 is the structural representation of the printing images imaging device of plate making equipment in the specific embodiment of the invention.
Wherein, each icon is: 11 exposure device 12 exposure light source 13 reflector 14 lay the grain plates; 21 printing images imaging devices; 211 first deflection optical sheet 212 second deflection optical sheet 213 liquid crystal layer 214 first transparent electrode layer 215 second transparent electrode layer 216 decontamination films; 22 printing images imaging device control circuit boxes; 31 forme bogeys; 41 time sequence control devices; 51 power packs.
Embodiment
For making technical scheme of the present invention and technique effect thereof clearer, clear and definite, below in conjunction with Fig. 1-4 pair specific embodiment of the invention, be further described.Should be appreciated that following embodiment, only in order to explain the present invention, is not intended to limit the present invention.
As shown in Figure 1, it is the skeleton view of plate making equipment in embodiment.This plate making equipment comprises: exposure device 11, printing images imaging device 21, forme bogey 31, time sequence control device 41, well known in the art, the conventional components such as power pack 51 repeat no more.
One-piece construction, described exposure light source 11, printing images imaging device 21, forme bogey 31 coaxially arrange successively, mainly guarantee exposure process efficient and accurate, coaxial setting described herein is that to rely on mechanical framework to realize the optical flat of above-mentioned exposure device, printing images imaging device and forme bogey coaxial, to guarantee that the exposure light that in forme plane, each place is accepted is uniformly distributed, thereby realize the uniform exposure of forme.
For time sequence control device 41, its be mainly used in adjusting comprise exposure light source control device, forme bogey and printing images imaging device respectively install work schedule; In space, cloth is set up, and it can be placed in to rational position according to integral device design, by corresponding wiring line, reaches the object that work schedule is respectively installed in control.According to the setting of this area routine, in equipment, the power supply of each power device is provided by power pack 51.
Specifically, described exposure device 11 comprises exposure light source 12 and exposure light source control device; Described exposure light source 12 for irradiation light to solidify the photosensitive material being carried on forme; Described exposure light source control device for control described exposure light source 12 selection, open, close, and control exposure intensity and time.One, selection for exposure light source, for meeting different Production requirements, especially the needed wavelength requirement of the curing photochemical reaction of the photosensitive material of load on forme under different operating modes, exposure light source can comprise multi-wavelength's ultraviolet source, multi-wavelength's infrared light supply, solidifies required wavelength select wherein one or more according to the photosensitive material of load on described forme.Can configure separately ultraviolet source or the infrared light supply of a certain single wavelength as required, also can configure different wavelength to meet different plate-making demands.As the long operating mode of extensive stream time, more options list wavelength light source, as fixed configurations, can be changed the light source of other wavelength as required; As multiple batches of multiduty operating mode, light source that can pre-configured multi-wavelength, selects as required and switches.According to the performance of existing commercially available photo-curing material, described ultraviolet source is that wavelength is the light source of 320 ~ 450nm; Described infrared light supply is that wavelength is the light source of 760 ~ 1200nm.They are two years old, for the unlatching of exposure light source, close, for different exposure light sources, conventionally all there is the technical matters of the aspects such as startup, stabilized illumination, luminous additional heat production, thermal perturbation stability of photoluminescence, therefore, rationally control the technical matters of the aspects such as the time to stabilized illumination of starting of exposure light source, the luminous additional heat production simultaneously bringing in avoiding working long hours, thermal perturbation stability of photoluminescence, need to by exposure light source control device control light source unlatching, close, and corresponding control process time parameter, to obtain, stablize and the less exposure light of disturbance.They are three years old, the physical-chemical parameters of the photochemical solidification material of forme load along with kind, batch, the variation of the factors such as consumption, environmental parameter and occur to float and change, the regulation and control that realize time shutter and/or exposure intensity play an important role to making up above-mentioned unsteady variation, thereby guarantee precision and the accuracy of prepared finished product forme.For improving the effective rate of utilization of exposure light source light, can increase the setting of reflector 13, to improve to the light intensity of forme direction, thereby reduce the time shutter, to enhance productivity.For making the compound exposure needs of light, can set up lay the grain plate 14, to improve exposure quality.
In this embodiment, described printing images imaging device 21 is used to form target image to replace needed film or the title film in traditional plate-making process, from the light of described exposure light source, pass through the coverage of described target image, on described forme, form corresponding exposure image; The technological process of having saved sensitive film and preparation thereof comprises the loaded down with trivial details operation links such as darkroom exposure flushing, colour-separation drafting, printing down, and the chemical reagent effectively having reduced in this process is used, and has reduced environmental pollution, is a kind of green plate-making technology; Reduce production cost, reduced image transfer number of times, improve picture quality, used Computer To Plate to substitute after film printing down, owing to not using film, the printing quality of printed matter has clear improvement, because image and site are not subject to tradition to print the impact of those mass attenuations in front technique.The forme of output, better quality, because the influence factors such as the dust on the film, scratch have not existed, edge, site is totally sharp keen, loyal original copy.
Concrete, a kind of concrete design that is easy to realization providing as this embodiment, has adopted liquid crystal photomask to replace film or has claimed the film.From structure, arrange, the printing images imaging device that this liquid crystal is made comprises, the first deflection optical sheet 211, liquid crystal layer 213 and the second deflection optical sheet 212; Described liquid crystal layer 213 is located between the first deflection optical sheet 211 and the second deflection optical sheet 212; On the surface that the first deflection optical sheet 211 contacts with liquid crystal layer, be provided with the first transparent electrode layer 214; On the surface that the second deflection optical sheet 212 contacts with liquid crystal layer 213, be provided with the second transparency conducting layer 215; The polarization direction angle of described the first deflection optical sheet 211 and the second deflection optical sheet 212 is 90 degree; By applying corresponding electric signal at the first transparent electrode layer 214 and the second transparent electrode layer 215, the liquid crystal of respective regions in described liquid crystal layer is deflected, form described target image, cover exposure light source irradiation light; The region that liquid crystal deflection does not occur becomes light transmission state; thereby exposure is realized in the relevant position at forme; the photosensitive material generation photochemical reaction of carrying on forme is to solidify; can not there is photochemical reaction in all the other unexposed areas; keep original state, in subsequent process, by corresponding washing lotion, washed away, said process is conventional technique in exposure graphic arts process; do not repeat them here, also do not affect protection scope of the present invention.
For the pollution that prevents from bringing in application process, cause stain, bad point and panel breakage etc., described photomask also comprises decontamination film 216, described schmutzdecke is arranged at the second deflection optical sheet light outgoing one side.
For Data Source, can adopt integrated computer equipment, also can adopt external data sources as the Data Source of printing images imaging device to improve the versatility of equipment, now, printing images imaging device 21 also comprises data-interface, be used for connecting computing machine, described computing machine is inputted printing images imaging device by view data.
Adopt the mask-making technology of above-mentioned platemaking equipment to comprise the following steps:
(1) enter version, have the forme of photosensitive material be loaded into forme bogey 31 and move to assigned address load;
(2) photomask forms, and computing machine is inputted printing images imaging device 21 by data-interface by view data, and described printing images imaging device 21 forms target image;
(3) exposure, exposure light source control device is selected the exposure light source 12 of respective wavelength and is opened, and controls exposure intensity and time, and the light of exposure light source 12 is through the coverage of described target image, light regional transmission photosensitive material solidifies, and forms corresponding exposure image on described forme;
(4) exposure light source control device cuts out exposure light source 12;
(5) move back version, forme bogey 31 moves to assigned address by the forme after exposure.
In this process, what adopt time sequence control device 41 to adjust to comprise exposure light source control device, forme bogey and printing images imaging device respectively installs work schedule.
It should be noted that, the description that the present invention is directed to equipment is not limited to the restriction of photosensitive material in plate-making process, in all prior aries, existing suitable plate-making all can be used with photosensitive material in equipment and process of the present invention, at this, do not enumerate, those skilled in the art can select and replace to adapt to different plate-making demands by conventional technological means.
In sum, in this embodiment, equipment is simple, production cost is low, it is simple to operate to use, imaging precision is controlled, chromatography is accurate, applied range, can meet the plate-making demand of different size, parameter request, efficiently solve the practical problemss such as existing Computer To Plate technique input cost is high, precision of images regulation and control are complicated, plate-making efficiency is low.
Should be understood that, structure of the present invention, application, processing step etc. are not limited to above-mentioned giving an example, and to those skilled in the art's send a letter here, can be improved according to the above description or convert, and all these improvement and conversion all should belong to protection scope of the present invention.
Claims (10)
1. a plate making equipment, is characterized in that, this equipment comprises: exposure device, printing images imaging device, forme bogey, time sequence control device; Described exposure device comprises exposure light source and exposure light source control device; Described exposure light source, printing images imaging device, forme bogey coaxially arrange successively; Described printing images imaging device is used to form target image to replace film, passes through the coverage of described target image from the light of described exposure light source, forms corresponding exposure image on described forme.
2. plate making equipment according to claim 1, described exposure light source for irradiation light to solidify the photosensitive material being carried on forme; Described exposure light source control device for control described exposure light source selection, open, close, and control exposure intensity and time; Described forme bogey, for carrying, mobile forme; Described time sequence control device for adjust comprise exposure light source control device, forme bogey and printing images imaging device respectively install work schedule.
3. plate making equipment according to claim 1 and 2, is characterized in that, described printing images imaging device comprises, the first deflection optical sheet, liquid crystal layer and the second deflection optical sheet; Described liquid crystal layer is located between the first deflection optical sheet and the second deflection optical sheet; On the surface that the first deflection optical sheet contacts with liquid crystal layer, be provided with the first transparent electrode layer; On the surface that the second deflection optical sheet contacts with liquid crystal layer, be provided with the second transparency conducting layer; The polarization direction angle of described the first deflection optical sheet and the second deflection optical sheet is 90 degree; By applying corresponding electric signal at the first transparent electrode layer and the second transparent electrode layer, the liquid crystal of respective regions in described liquid crystal layer is deflected, form described target image, cover exposure light source irradiation light; The region that liquid crystal deflection does not occur becomes light transmission state.
4. according to the plate making equipment described in claim 1-3 any one, it is characterized in that, printing images imaging device also comprises data-interface, and for connecting computing machine, described computing machine is inputted printing images imaging device by view data.
5. according to the plate making equipment described in claim 1-4 any one, it is characterized in that, exposure light source comprises multi-wavelength's ultraviolet source, multi-wavelength's infrared light supply, solidifies required wavelength select wherein one or more according to the photosensitive material of load on described forme.
6. according to the plate making equipment described in claim 1-5 any one, it is characterized in that, described ultraviolet source is that wavelength is the light source of 320 ~ 450nm.
7. according to the plate making equipment described in claim 1-5 any one, it is characterized in that, described infrared light supply is that wavelength is the light source of 760 ~ 1200nm.
8. according to the plate making equipment described in claim 1-7 any one, it is characterized in that, described printing images imaging device is installed on printing images imaging device riser guide, by printing images imaging device lifting motor actuation movement.
9. according to the plate making equipment described in claim 1-8 any one, it is characterized in that, described printing images imaging device is provided with decontamination film towards forme bogey one side.
10. a method for platemaking that adopts the plate making equipment described in claim 1-9 any one, is characterized in that, comprises the following steps:
(1) enter version, have the forme of photosensitive material be loaded into forme bogey and move to assigned address load;
(2) photomask forms, and computing machine is inputted printing images imaging device by data-interface by view data, and described printing images imaging device forms target image;
(3) exposure, exposure light source control device is selected the exposure light source of respective wavelength and is opened, and controls exposure intensity and time, and the light of exposure light source is through the coverage of described target image, light regional transmission photosensitive material solidifies, and forms corresponding exposure image on described forme;
(4) exposure light source control device cuts out exposure light source;
(5) move back version, forme bogey moves to assigned address by the forme after exposure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201410197628.5A CN103955113B (en) | 2014-05-12 | 2014-05-12 | A kind of plate making equipment and method for platemaking |
Applications Claiming Priority (1)
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CN201410197628.5A CN103955113B (en) | 2014-05-12 | 2014-05-12 | A kind of plate making equipment and method for platemaking |
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CN103955113A true CN103955113A (en) | 2014-07-30 |
CN103955113B CN103955113B (en) | 2015-11-04 |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105914180A (en) * | 2016-05-18 | 2016-08-31 | 中国电子科技集团公司第四十研究所 | Method of making reinforced metal hole |
CN108628111A (en) * | 2018-05-15 | 2018-10-09 | 复旦大学 | Edition system is shone using the collotype of ultraviolet LED light source |
CN108646526A (en) * | 2018-05-10 | 2018-10-12 | 山东临沂新华印刷物流集团有限责任公司 | Printing plate-making method, system and device |
CN109016794A (en) * | 2017-11-16 | 2018-12-18 | 武汉华工图像技术开发有限公司 | A kind of large area is seamless miniature mask-making technology and holographic mother |
CN109760405A (en) * | 2019-01-24 | 2019-05-17 | 河南省防伪保密印刷公司(河南省邮电印刷厂) | A kind of CTP plate making equipment and control system |
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CN103149801A (en) * | 2013-03-16 | 2013-06-12 | 陈乃奇 | Laser direct plate marking device for plane screen print plate and device |
CN203825360U (en) * | 2014-05-12 | 2014-09-10 | 青岛斯博锐意电子技术有限公司 | Printing plate-making equipment |
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JP2005106992A (en) * | 2003-09-29 | 2005-04-21 | Fuji Photo Film Co Ltd | Image forming apparatus |
CN201436603U (en) * | 2008-10-30 | 2010-04-07 | 北京画中画印刷有限公司 | Printing device making plate by using computer directly |
CN103149801A (en) * | 2013-03-16 | 2013-06-12 | 陈乃奇 | Laser direct plate marking device for plane screen print plate and device |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105914180A (en) * | 2016-05-18 | 2016-08-31 | 中国电子科技集团公司第四十研究所 | Method of making reinforced metal hole |
CN109016794A (en) * | 2017-11-16 | 2018-12-18 | 武汉华工图像技术开发有限公司 | A kind of large area is seamless miniature mask-making technology and holographic mother |
CN109016794B (en) * | 2017-11-16 | 2023-08-25 | 武汉华工图像技术开发有限公司 | Large-area seamless miniature plate making process and holographic master plate |
CN108646526A (en) * | 2018-05-10 | 2018-10-12 | 山东临沂新华印刷物流集团有限责任公司 | Printing plate-making method, system and device |
CN108628111A (en) * | 2018-05-15 | 2018-10-09 | 复旦大学 | Edition system is shone using the collotype of ultraviolet LED light source |
CN109760405A (en) * | 2019-01-24 | 2019-05-17 | 河南省防伪保密印刷公司(河南省邮电印刷厂) | A kind of CTP plate making equipment and control system |
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