CN102009536A

CN102009536A - Method for generating a printing characteristic on a substrate of a printed product

Info

Publication number: CN102009536A
Application number: CN2010102760932A
Authority: CN
Inventors: G·菲舍尔; M·施米特莱文; K-H·瓦尔特; E·萨恩
Original assignee: Heidelberger Druckmaschinen AG
Current assignee: Heidelberger Druckmaschinen AG
Priority date: 2009-09-07
Filing date: 2010-09-07
Publication date: 2011-04-13
Anticipated expiration: 2030-09-07
Also published as: DE102009040359A1; EP2308682A3; CN102009536B; EP2308682B1; EP2308682A2

Abstract

The present invention relates to a method for generating a printing (visible or functional, such as conductive) characteristic on a substrate of a printed product, wherein, the method involves producing a layer (4) by applying a first medium (5) e.g. adhesive and gloss varnish in a first step (A), and treating surfaces (6) of the first layer (4) segmentally at least in a second step (B) such that another layer (7) is produced by applying a second medium (8) e.g. foil transfer layer on the adhesive, or a surface structure (9) is generated through structuring the first medium (5) and stamping into the gloss varnish. The invention is characterized in that the surface (6) of the first layer (4) is pretreated in a middle step (ZS) with a mode that the information based on the printing characteristic (1) e.g. appearance of a conductor circuit structure or anti-counterfeiting random pattern, is transmitted to the first medium (5) purposely.

Description

Be used on the matrix of print product, producing the method for printing technology feature

Technical field

The present invention relates to a kind of method with claim 1 preamble feature.In addition, the invention still further relates to a kind of device that is used to implement described method with claim 9 preamble feature.

Background technology

Print product is designed more and more personalizedly and therefore is provided with specific characteristic, for example personal information.Therefore people are for can this feature being set and making its value-added technology interested more and more thus print product.

JP2007/313876 has described a kind of method, wherein, by means of laser information " is write " in the thin layer of product to a certain extent, and wherein, described thin layer comprises at first transparent printing ink or gloss varnish layer, and described printing ink or gloss varnish layer are painted by laser emission.The shortcoming of this scheme is a trouble,, only can handle the upper strata of described thin layer that is, and described upper strata is the nature sensitive for damages when the transportation of product, and only can handle transparent layer in advance, and the substitute is the coloured matrix of most employing when printing.

DE 10 2,005 031 572 A1 disclose a kind of method of printing printed words with post processing that is used to print, wherein, produce at least one printing printed words on the stock and by means of a UV radiator of shortwave to described printing printed words only from the teeth outwards and selectively according to image and by means of the 2nd UV radiator polymerization on the degree of depth of long wave.Should print the glossiness of printed words in this way according to described image modification.The shortcoming of this scheme is to need the parallel radiation source that uses two that differ from one another, claimed structure spaces and energy.

Summary of the invention

Under this background; task of the present invention is; provide a kind of with respect to the improved method of prior art, this method allows in simple mode, promptly particularly produces lasting, i.e. particularly wear-resistant or shielded printing technology feature to expend few measure on matrix.In addition, a task other or that substitute of the present invention is, provide a kind of be used to implement this method, with respect to the improved device of prior art.

According to the present invention, described task by having claim 1 feature method and by having the device solves of claim 9 feature.Favourable further configuration of the present invention draws from affiliated dependent claims and from specification and affiliated accompanying drawing.

The present invention proposes a kind of method that is used on the matrix of print product, producing the printing technology feature, wherein, in first step, produce ground floor by applying first medium, and the surface of handling described ground floor, section ground at least in second step, its mode is, by applying the structuring generation surface texture that second medium produces the second layer or passes through first medium, it is characterized in that, the surface of the described ground floor of section ground preliminary treatment at least in intermediate steps, its mode is on purpose to be delivered to based on the information of described printing technology feature in described first medium.

Before second step, carry out preliminary treatment according to the present invention, allow thus with simple mode on matrix, produce lasting, promptly particularly resistance to wear or shielded printing technology feature.The described feature interaction of the processing (for example double exposure, impression) by described preliminary treatment (information transmission) and described second step basically produces, wherein, and the eye impressions of described feature or its are determined functional manifest or for use.This feature that produces according to the present invention preferably can be formed on conductive structure of realizing in the cold paper tinsel (for example memory, change-over circuit, antenna) or the anti-pseudo-random patterns (for example being used for authenticity verification/functional check) that is configured to imprinted pattern.

One of the inventive method since the traditional material that is adopted favourable and the therefore preferred further feature of configuration be that printing-ink, gloss varnish or bonding agent are applied on the matrix as first medium.

One of the inventive method is same because the further feature of configuration that the traditional material that is adopted is favourable and therefore preferred is that printing-ink, gloss varnish, paper tinsel or paper tinsel transfer printing layer are applied on the print product as second medium.

One of the inventive method for security application favourable and the therefore preferred further feature of configuration be that described structuring is carried out as the introducing of imprinted pattern.

One of the inventive method since fast operating rate favourable and the therefore preferred further feature of configuration be that the transmission of information is carried out by means of electromagnetic radiation.

One of the inventive method produce fast the 2D configuration aspects favourable and the therefore preferred further feature of configuration be to adopt (for example scanning) laser emission, (for example producing) LED radiation or the radiation by the frisket guiding electromagnetic radiation as beared information by means of so-called array.

One of the inventive method for the effective surface modification of quick realization favourable and the therefore preferred further feature of configuration be that the electromagnetic radiation of described beared information causes the change of sclerosis, dry and/or surface energy.

One of the inventive method owing to can adopt (for example change color or change viscosity) chemical agent of big quantitative response or particle (electronics, ion) is favourable and feature therefore preferred, the further configuration that substitutes is that the transmission of information is carried out by means of liquid beam or beam of particles.

The device that is used to implement one of described method of the present invention is characterised in that, be provided with first module that is used to implement described first step and be arranged on the downstream at the throughput direction of described matrix, be used to implement second module of described second step and be arranged on the throughput direction of described matrix between described first module and second module, be used to implement the intermediate module of described intermediate steps, described first module has first printing and/or the coated elements, described second module has second printing and/or coated elements or structuring unit, and described intermediate module has the information transfer unit.

Also comprise a kind of machines that process printed materials within the scope of the invention, for example printing machine especially for rotary press offset lithography, that handle sheet-fed, perhaps for example is the seal post-processor, it is characterized in that, be provided with at least one as the above-mentioned device of describing with reference to the present invention.

Described the present invention and favourable further configuration of the present invention also can combination with one another constitute favourable further configuration of the present invention.Preference as with cold paper tinsel bonding agent as first medium, with the cold foil transfer print layer as second medium and with making the subsclerotic electromagnetic radiation of described bonding agent carry out the transmission of information.Equally preferably, adopt moulding process with gloss varnish as first medium and for structuring.

Description of drawings

Describe the present invention itself and the present invention favourable further configuration on structure and/or function in detail by means of at least one preferred embodiment with reference to the accompanying drawings.In the accompanying drawings, corresponding each other element is respectively arranged with identical reference number.Accompanying drawing is represented:

Fig. 1 is the flow chart of a preferred embodiment of the inventive method;

Fig. 2 a-d illustrates machines that process printed materials respectively, and it has the preferred implementation of apparatus of the present invention.

The specific embodiment

Fig. 1 illustrates according to flow chart of the present invention, that be used for a preferred embodiment of the method for generation printing technology feature on the matrix of print product, and this method has two steps and an intermediate steps.Described printing technology feature 1 feature preferably visual, that can with the naked eye see, perhaps equally preferably functional, promptly provide the feature of other functions such as conductive capability.Consider that paper, cardboard, paper tinsel, plate or sheet metal are as matrix 2.Print product 3 itself can make and be provided with literal, image, pattern and/or be provided with flat such as product description, label or packing other information, that preferably print with the wheel shifting method.

In method step A (first step), produce ground floor 4 on the naked matrix 2 that provide or precoated shet by first medium 5 being applied in a preliminary step VS.This ground floor 4 can add entoilage or do not add that entoilage applies and its thickness preferably micron or even sub-micrometer range in.Applying preferably of described first medium 5 carried out with the wheel shifting method, for example carries out with the offset lithography method.Described first medium 5 is fluid, for example printing-ink, gloss varnish or bonding agent preferably.Preferably be used for the bonding agent of cold foil transfer print method as described bonding agent.

In method step B (second step), at least the surface 6 of described ground floor 4 is handled on section ground, its mode is, i) produce the second layer 7 by being applied to second medium 8 on the described matrix 2 or being applied on the described matrix 2 that in first step, has been provided with first medium 5, perhaps, ii) by making 5 structurings of described first medium produce surface texture 9.The described second layer 7 can add entoilage or do not add that entoilage applies and its thickness preferably equally micron or even sub-micrometer range in.Applying preferably of described second medium 8 carried out with the wheel shifting method equally, for example carries out with the offset lithography method.Described second medium 8 is fluid, for example printing-ink or gloss varnish preferably.The substitute is, described second medium 8 preferably also can be paper tinsel or paper tinsel transfer printing layer, for example cold paper tinsel or cold foil transfer print layer.The structuring on the surface 6 of first medium 5 is preferably undertaken by distortion, for example by introducing imprinted pattern or being undertaken by impression.

Method step ZS carries out, promptly is in method step A back in time and is in method step B front as intermediate steps.At this, section ground is pretreated at least on the surface 6 of described ground floor 4, and its mode is on purpose will be delivered to based on the information of described printing technology feature 1 in first medium 5.For example can transmit literal, image or pattern-information or about the appearance information of the position of functional printing technology feature, for example conductive structure and shape as based on information.The transmission of information is preferably carried out by means of electromagnetic radiation 10, for example laser emission, LED radiation (i.e. the radiation that is produced by light emitting diode) or the radiation that guides by the frisket that for example has so-called light valve (convertible photochopper matrix (Verschluss-Matrix)) or optical modulator.Ground floor 4 or first medium 5 are carried out irradiation 10 causes this ground floor or the sclerosis of this first medium, dry and/or surface to change.Layer sclerosis or medium sclerosis preferably can be only partly harden, preferably only near surface sclerosis.Correspondingly, drying preferably can be only partly dry.The change of surface energy preferably can be the reduction of surface energy.Electromagnetic radiation can be the radiation in ultraviolet ray (UV is preferred for sclerosis), visible light or infrared ray (IR is preferred for drying) spectral region.To adopting electromagnetic radiation alternatively or additionally, the transmission of described information also can be carried out by means of fluid radiation 11 (for example under the situation that adopts ink ejecting method) or particle radiation 11 (for example adopting under the situation of electron radiation or plasma).

Because before the described second step B, carry out, so the surface that changes in step ZS for example covers or is provided with imprinted pattern 9 with printing ink, gloss varnish, paper tinsel or paper tinsel transfer printing layer 8 by the post processing in step B and avoided changing/wearing and tearing by lasting protection in an advantageous manner and the fixing enduringly information of being introduced by described post processing for important step ZS of the present invention.

The application of the inventive method is described below as an example: but the cold paper tinsel bonding agent 5 that all sidedly UV is hardened in steps A is applied on the matrix 2.In step ZS, be delivered in the bonding agent 5 as characters cut in intaglio with UV radiation and convertible frisket or with the UV laser system of scanning appearance with the conductor circuit structure.Thus, bonding agent 5 is according to this structure partial ground partially hardened.In step B, coating material 8 (cold foil transfer print layer) is contacted with bonding agent 5 with the cold foil transfer print method.Bonding agent 5 is not receiving transfer materials according to described characters cut in intaglio on the subsclerotic partly position, thereby forms the conductor circuit structure of characters cut in relief in transfer materials.The result is the conductor circuit structure that constitutes of cold foil transfer print material that obtains on described matrix by conduction.In addition, the conductor circuit structure is changed according to the difference of print product, so that personalized or formation specific characteristic by described convertible frisket or described scanning system.

Fig. 2 a illustrates a machine 12 of handling stock as matrix partly, preferred printing machine, the preferred implementation that it has apparatus of the present invention 13 is used for producing printing technology feature 1 on the matrix 2 of print product 3, and this device has two modules and an intermediate module.

This printing machine 12 has: first a module 13a who is used to carry out first step A (preferred panchromatic accent-printing ink applies), and this first module has first printing and/or the coated elements 14a, preferred first printing equipment; One is arranged on the second module 15a downstream, that be used to carry out the second step B (printing ink or gloss varnish apply) on the throughput direction of matrix 2, this second module has second printing and/or the coated elements 16a, preferred second printing equipment; Throughput direction along matrix 2 is arranged on intermediate module ZM between the first module 13a and the second module 15a, that be used to carry out intermediate steps ZS, and this intermediate module has information transfer unit 17.By adopting intermediate module ZM to allow surface energy/wetting characteristics and the information-related change of printing-ink 5 or drying/sclerosis or part drying/partially hardened (preferably carrying out) in an advantageous manner and producing potential image thus by means of UV radiation or IR radiation.In other words, intermediate module ZM permission " writes information " in the ink lay 4 or with described information and makes ink lay 4 " imaging ".Therefore, with after-applied other printing ink or gloss varnish layer 7 time, cause second medium 8 being associated on first medium 5, with information-related adhering to and repel, thereby make information " writing " or " imaging " as seen (keyword: so-called " Drip-Off effect " or " drippage ") in described other printing ink or gloss varnish layer 8.Alternatively, with after-applied described other printing ink or gloss varnish layer 7 time because local (R ü ckspaltung) effect of splitting that changes causes previous potential image become as seen (keyword: so-called " double exposure ").

According to Fig. 2 b, printing machine 12 has alternatively or additionally: first a module 13b who is used to carry out first step A (bonding agent applies), this first module has first printing and/or the coated elements 14b, is preferred for planar ground or adds entoilage, whole or only apply first printing equipment of bonding agent section according to image; One is arranged on the second module 15b downstream, that be used to carry out second step (the paper tinsel transfer printing layer applies) on the throughput direction of matrix 2, this second module has second printing and/or the coated elements 16b, is preferred for the printing equipment of cold foil transfer print; One is being arranged on intermediate module ZM between the first module 13b and the second module 15b, that be used to carry out intermediate steps ZS on the throughput direction of matrix 2, this intermediate module has an information transfer unit 17.By adopting intermediate module ZM to allow bonding agent 5 and information-related sclerosis or partially hardened (under the situation of the bonding agent that uses the UV sclerosis, preferably carrying out) in an advantageous manner and producing potential bonding agent image thus by means of the UV radiation.In other words, intermediate module ZM permission " writes information " in the bond layer 4 or with described information and makes bond layer 4 " imaging ".Thus, bonding agent 5 has than the either large or small position of its surrounding environment viscosity and therefore peels off less transfer printing layer or do not peel off transfer printing layer from carrier layer.Therefore, with after-applied transfer printing layer 7 time, cause this transfer printing layer 7 be associated, with information-related transmission, thereby make that as seen or for example information " writing " or " imaging " work on function as conductor circuit in this transfer printing layer 7.Therefore only carry out with the form of coarse-textureization on section ground if described bonding agent applies A, then information can be restricted and produces fine structure with the short time and with less energy to the transmission ZS on the same section.

According to Fig. 2 c, printing machine 13 has alternatively or additionally: first a module 13c who is used to carry out first step A (gloss varnish applies), and described first module has first printing and/or the coated elements 14c, preferred gloss varnish device; One is arranged on the second module 15c downstream, that be used to carry out the second step B (impression) on the throughput direction of matrix 2, described second module has structuring unit 16c, preferably impresses mechanism; One is being arranged on intermediate module ZM between the first module 13c and the second module 15c, that be used to carry out intermediate steps on the throughput direction of matrix 2, this intermediate module has an information transfer unit 17.By adopting intermediate module ZM to allow gloss varnish 5 and information-related sclerosis or partially hardened (under the situation of the gloss varnish that uses the UV sclerosis, preferably carrying out) in an advantageous manner by means of the UV radiation.In other words, intermediate module ZM permission " writes information " in the gloss varnish layer 4 or with described information and makes gloss varnish layer 4 " imaging ".The deformability of gloss varnish 5 changes partly and has a deformability position more either large or small than its surrounding environment thus.Therefore, when impression B subsequently, cause being associated, with information-related imprinted pattern picture, thereby make information " writing " or " imaging " this in gloss varnish layer of impression as seen.Therefore for example also can not adopt impressing mould and passing through control that pre-hardening carries out and select which section of impressing mould and work with in fact impressing via gloss varnish thickness xy distribution with changing.

According to Fig. 2 d, printing machine 13 has alternatively or additionally: first a module 13d who is used to carry out first step A (printing ink applies), and described first module has first printing and/or the coated elements 14d, preferred first printing equipment; One is arranged on the second module 15d downstream, that be used to carry out the second step B (printing ink or gloss varnish apply) on the throughput direction of matrix 2, described second module has second printing and/or the coated elements 16d, preferred second printing equipment; One is being arranged on intermediate module ZM between the first module 13d and the second module 15d, that be used to carry out intermediate steps ZM on the throughput direction of matrix 2, this intermediate module has an information transfer unit 17.Be provided with one be used to apply liquid modified dose liquid ejection unit 17, for example so-called shower nozzle is as information transfer unit 17, described liquid modified dose reacts with printing-ink 5, for example the change by chemical bleaching/decolouring, variable color or rheological behavior.Eye impressions by the printing-ink 5 that adopts described intermediate module ZM to allow in an advantageous manner to apply in advance, for example color impression and information-related change.In other words, the intermediate module permission " writes information " in the ink lay 4 or with described information and makes ink lay 4 " imaging ".Therefore, with described other printing ink of after-applied B or gloss varnish layer 7 time, cause being associated, with information-related eye impressions, thereby make that as seen information " writing " or " imaging " keep in this other printing ink or gloss varnish layer 7.Alternatively also can then not apply other printing ink or gloss varnish layer 7 ground and under the situation of abandoning the second step B, adopt or apply the described chemical modifier of ZS.

Described in principle method and apparatus of the present invention allows to make print product to be produced 3 be equipped with the specific characteristic 1 of printing technology by means of described intermediate steps ZS or intermediate module ZW, that is to say, described feature 1 can (printing order) change when making a series of print product 3, thereby produces different features 1 on different print product 3.In other words: according to the present invention can so that print product 3 retrofit each other or change, for example personalized or individualized.Described feature 1 for example can be the random pattern of anti-counterfeiting, and these random patterns change between print product.

For the modification of printing technology feature 1 can (one dimension or bidimensional ground) adopt that sectional ground is changed, based on the intermediate module ZM of following technology: radiation source (for example UV-, IR-or light source), heating element heater, electronics-or ion gun, electric or magnetic pencil and mechanical type or electromechanical pencil.

Ground, position shown in each intermediate module ZM among the accompanying drawing 2a-d also can substitute (being positioned on the cylinder of the guiding matrix that belongs to the first module 13a-d) also can be positioned on the cylinder of the guiding matrix that belongs to the second module 15a-d.Alternatively, equally also can only replace a cylinder and described intermediate module ZM to be positioned on that cylinder of centre of described three cylinders at the cylinder that three guiding matrixes are set between these two cylinders.Another replacement scheme is that intermediate module ZM is positioned at the transparent cylinder inside between the cylinder of described two the guiding matrixes that belong to first and second modules.

Described method and apparatus of the present invention not only can be in traditional printing process (for example intaglio printing, lithographic plate/stone plate, letterpress/aniline printing, porous printing/serigraphy) and can in so-called " non-impact " printing process (for example ink jet printing, tone printing), adopt.In addition, they can also justify/putting down in (being cylinder/platform) printing process, circle/circle printing process or flat/flat stamping brush method, in sheet-fed or web printing, in monochrome or polychrome printing and/or inner/externally (promptly in printing machine/the seal post-processor in or as independent hard-cover machine) adopt.

Can adopt the information transfer unit 17 of the so-called led array of the so-called laser array of laser, one dimension or bidimensional, traditional light source (what is called of point-like or galvanometer scanner, one dimension or bidimensional " DMD/ digital micro-mirror device "-lens array), light emitting diode (LED) and/or one dimension or two dimension as electromagnetism with optical modulator.

At last, replacement the foregoing description ground also can be abandoned first step A and the substitute is with described intermediate steps ZS as first step, that is to say, the surface 6 of the surface of section ground preliminary treatment matrix 2 replaces at least---non-existent now---ground floor, its mode is, on purpose will be delivered in the matrix 2 based on the information of printing technology feature 1 or on the matrix 2.

The reference number table

1 printing characteristic

2 matrixes

3 print products

4 ground floors

5 first media

6 surfaces

7 second layers

8 second media

9 surface textures

10 EM radiation

11 liquid beam/particle radiations

12 printing machines

13 devices

13a-d first module

The 14a-d first printing/coated elements

15a-d second module

The 16a-d second printing/coating/structuring unit

17 information transfer units

The VS preliminary step

The A first step

B second step

The ZS intermediate steps

The ZM intermediate module

Claims

1. method that is used on the matrix of print product producing the printing technology feature, wherein,

In first step (A), produce ground floor (4) by applying first medium (5), and

The surface (6) of handling described ground floor (4), section ground at least in second step (B), its mode be, second medium (8) produces the second layer (7) or the structuring by first medium (5) produces surface texture (9) by applying,

It is characterized in that,

The surface (6) of the described ground floor of section ground preliminary treatment (4) at least in an intermediate steps (ZS), its mode is on purpose to be delivered in described first medium (5) based on the information of described printing technology feature (1).

2. according to the method for claim 1, it is characterized in that, printing-ink, gloss varnish or bonding agent are applied on the matrix (2) as first medium (5).

3. according to the method for claim 1 or 2, it is characterized in that, printing-ink, gloss varnish, paper tinsel or paper tinsel transfer printing layer are applied on the matrix (2) as second medium (8).

4. according to the method for claim 1, it is characterized in that described structuring is carried out as the introducing of imprinted pattern.

5. according to the method for claim 1, it is characterized in that the transmission of information is carried out by means of electromagnetic radiation (10).

6. according to the method for claim 5, it is characterized in that, adopt laser emission, LED radiation or the radiation by the frisket guiding electromagnetic radiation (10) as beared information.

7. according to the method for claim 5 or 6, it is characterized in that the electromagnetic radiation of described beared information (10) causes the change of sclerosis, drying and/or surface energy.

8. according to the method for claim 1, it is characterized in that the transmission of information is carried out by means of fluid radiation (11) or particle radiation (11).

9. device that is used for implementing according to one of each described method of claim 1 to 8, it is characterized in that, be provided with and be used to implement first module (13a-d) of described first step (A) and on the throughput direction of described matrix (2), be arranged on the downstream, be used to implement second module (15a-d) of described second step (B) and on the throughput direction of described matrix (2), be arranged on described first module and the second module (13a-d, 15a-d), be used to implement the intermediate module (ZM) of described intermediate steps (ZS), described first module has first printing and/or the coated elements (14a-d), described second module has second printing and/or coated elements or structuring unit (16a-d), and described intermediate module has information transfer unit (17).

10. machines that process printed materials, for example printing machine especially for rotary press offset lithography, that handle sheet-fed, perhaps for example is the seal post-processor, it is characterized in that, is provided with device according to claim 9.