CN107835751A - Data medium with penetration region - Google Patents

Abstract

The present invention relates to a kind of data medium, especially valuable document or cheque paper, and it includes the data medium substrate with penetration region, and the data medium substrate has front and back, wherein：The front of data medium substrate is equipped with film Security element in penetration region；The penetration region of data medium substrate is made up of multiple perforates for penetrating data carrier substrates, the perforate is collectively forming penetration region theme, wherein, penetration region theme can not be identified when with the front of reflection light observed data carrier and covered by film Security element, and can be identified when with the front of transmitted ray observed data carrier through film Security element；And film Security element shows the first outward appearance when with the front of reflection light observed data carrier, and when with the front of transmitted ray observed data carrier penetration region theme of the display supplemented with data medium substrate the second outward appearance.

Description

Data medium with penetration region

The present invention relates to a kind of data medium, especially valuable document or cheque paper, and it is included with penetration region Data medium substrate, the data medium substrate have front and back, wherein, the front of data medium substrate is in penetration region In be equipped with film Security element.

Data medium, especially valuable document, Security element is commonly provided with order to false proof, they realize data carriers Authenticity verification while as the protection for preventing replicate data carrier without permission.For example consider film as Security element Security element, they have film-substrate or plastic supporting base and applied on the data carrier by adhesive linkage.

It is known that to improve anti-forgery security by these film Security elements with running through opening phase in valuable document With reference to.

WO 95/10420A1 describe a kind of valuable document, and wherein carrier is equipped with the breakthrough portion of window-like, described to penetrate Portion is closed by the transparent masking film of at least one regionality, wherein, masking film is especially in the area of the breakthrough portion of window-like Additional anti-counterfeiting characteristic, such as diffraction structure can be equipped in domain.

The A2 of WO 2005/025891 describe a kind of data medium with film Security element, wherein, the false proof member of film Part and data medium are respectively provided with penetration region；The penetration region preferably at least partly overlaps and particularly preferably overlapped. In another alternative, the penetration region in data medium is led to away from the side of the data medium side with film Security element Another film is crossed to cover.

The A1 of WO 2010/000432 describe a kind of valuable document with opening, and it is sealed in side by light transmission film Close.In order to improve anti-forgery security, the upper side and lower side of valuable document is covered by transparent coatings, and the transparent coatings are preferred Realized on whole area.The coating is preferably extruded or is laminated independently of each other respectively.

The A1 of WO 2011/015622 describe a kind of valuable document with opening, and it passes through at least partly not in side Transparent or transparent film closing, wherein, on the side opposed with film of valuable document in open area and base There is coating in sheet in the region of pellicular front, wherein, coating is not present and is substantially absent in open interior in other words.

The A1 of WO 2014/108329 describe a kind of continuous paper for being used for manufacture and being used to produce security document and valuable document The method of width.Paper web is equipped with the opening penetrated first.Then apply film, the film has to be applied to paper web alignment On anti-counterfeiting characteristic.

In experimental research, by will be similar to that the test substrate of valuable document is in contact with dirt and mechanical load Simulate valuable document circulation stability, it is described it is experimental study obtain as a result, being applied to penetrating in test substrate The film of overthe openings is subjected to extreme Rapid Damage test condition.

Based on this, the technical problems to be solved by the invention are, to the data medium according to type of the present invention Design is extended, especially improves the shortcomings that so as to overcome prior art and further false proof protection.

The technical problem is solved by the present invention by the combinations of features defined in the independent claim.The extension of the present invention Design is the theme of dependent claims.

Invention is summarized

1. a kind of data medium, especially valuable document or cheque paper, including the lining of the data medium with penetration region Bottom, the data medium substrate have front and back, wherein

The front of-data medium substrate is equipped with film Security element in penetration region；

The penetration region of-data medium substrate is made up of multiple perforates for penetrating data carrier substrates, and the perforate is total to With forming penetration region theme, wherein, penetration region theme can not identify when with the front of reflection light observed data carrier And covered by film Security element, and the false proof member of film can be passed through when with the front of transmitted ray observed data carrier Part is identified；And

- film Security element shows the first outward appearance when with the front of reflection light observed data carrier, and with saturating Second outward appearance of penetration region theme of the display supplemented with data medium substrate when penetrating the front of visible light data medium.Film The second outward appearance that can recognize that in transmitted ray of Security element especially can be with the penetration region theme phase of data medium substrate Association.In addition, the second outward appearance that can recognize that in transmitted ray of film Security element can penetrate with data medium substrate Area topic produces combination image jointly.

The data medium of (2. preferred design) as described in entry 1, wherein, film Security element is more with that can interfere Rotating fields, the sandwich construction have reflecting layer, semitransparent layer and the dielectric layer being arranged between reflecting layer and semitransparent layer, its In, the color of the sandwich construction changes with the change of viewing angle.

The data medium of (3. preferred design) as described in entry 2, wherein, the sandwich construction that can interfere with reflection The first outward appearance that can be identified during visible light data medium front and the sandwich construction that can interfere with transmitted ray observed number The second outward appearance that can be identified during according to carrier front is based on the perforate in reflecting layer and/or semitransparent layer.

The data medium of (4. preferred design) as described in entry 1, wherein, film Security element has sandwich construction, The sandwich construction has two semitransparent layers and the dielectric layer being arranged between two semitransparent layers, wherein, sandwich construction exists There is different tones when being observed with reflection light and when being observed with transmitted ray, especially show when being observed with reflection light Cash color and show blue color when being observed with transmitted ray.

The data medium of (5. preferred design) as described in entry 1, wherein, film Security element has liquid crystal layer, institute State liquid crystal layer and color different during from being observed with transmitted ray is shown when being observed with reflection light.

The data medium of (6. preferred design) as described in entry 1, wherein, film Security element has printing layer, institute Stating printing layer has effect pigment composition, and the effect pigment composition is shown with being seen with transmitted ray when being observed with reflection light Different color when examining, especially show golden/blueness conversion, gold/purple conversion, green-gold/carmetta conversion, purple/green Conversion or silver color/light tight colour switching.

The data medium of (7. preferred design) as described in one of entry 2 to 4, wherein, the sandwich construction and burr Structure is combined, and is especially combined with diffraction raised lines structure, micro-optical raised lines structure or sub- lambda structures.

The data medium of (8. preferred design) as described in entry 5, wherein, the liquid crystal layer is mutually tied with raised lines structure Close, be especially combined with diffraction raised lines structure, micro-optical raised lines structure or sub- lambda structures.

The data medium of (9. preferred design) as described in entry 6, wherein, the printing layer is mutually tied with raised lines structure Close, be especially combined with diffraction raised lines structure, micro-optical raised lines structure or sub- lambda structures.

The data medium of (10. preferred design) as described in one of entry 7 to 10, wherein, raised lines structure is realized can only When with the front of reflection light observed data carrier can visual identity but can not be with transmitted ray observed data carrier When positive can visual identity outward appearance.

The data medium of (11. preferred design) as described in one of entry 1 to 10, wherein, in data medium substrate Forming the perforate penetrated of penetration region theme can be obtained by effect of the laser beam on data medium substrate.

The data medium of (12. preferred design) as described in one of entry 1 to 11, wherein, the back of the body of data medium substrate Face is equipped with thin-film component, especially film Security element in penetration region, its front with being arranged in data medium substrate On film Security element independently select.

The data medium of (13. preferred design) as described in entry 12, wherein, the back side of data medium substrate is penetrating Film Security element is equipped with region, the film Security element shows when with the reflection light observed data carrier back side One outward appearance, and penetration region theme of the display supplemented with data medium substrate when with the transmitted ray observed data carrier back side The second outward appearance.

Detailed description of the Invention

It is false proof member from irradiating Security element and slave phase homonymy from side with reflection light observation according to the present invention Part.Thus, for example when in the positive illuminated of Security element and being also observed observed with reflection light.

According to the present invention, with transmitted ray observation be from side irradiate Security element and from opposite side, it is especially opposed Observe Security element in side.Thus, for example illuminated at the back side of Security element and Security element front is to use when observed Transmitted ray is observed.

The valuable document mentioned in this manual may, for example, be refer to banknote, especially bill, polymer banknote or Film laminated banknote, stock, bond, certificate, reward voucher, check, high level admission ticket are but it is also possible to be finger certification, identity card Or the personal page of passport.

The film Security element mentioned in this manual can for example refer to paster or label, refer to (continuous) band Or (continuous) line.

According to present invention provide that, the penetration region of data medium substrate passes through multiple perforate structures for penetrating data carrier substrates Into the perforate is collectively forming penetration region theme.Preferably, wearing for penetration region theme is formed in data medium substrate Saturating perforate is produced by effect of the laser beam on data medium substrate (namely by laser cutting).

Data medium substrate especially paper substrates or the substrate similar to paper.

Penetration region theme can be designed as the form of pattern or image, the form of symbol or the form of coding.

In a kind of preferable flexible program, penetration region theme is so-called macroscopical penetration region theme, and it passes through more The individual so-called microcosmic perforate that penetrates forms.The microcosmic form for penetrating perforate can be grating element, such as form is a lattice Grid and/or line grid.One line grid especially can by parallel lines, connect subparallel lines, diverging lines or Formed by the combination of aforementioned type.

Term " microcosmic " as used herein is simultaneously not understood to " size in micrometer range " or similarly sized, and is Relatively understand.The microcosmic perforate that penetrates can for observer respectively with the naked eye, namely without using optical auxiliary device Perceive and overall diagram is formed in the case of above-mentioned preferred variant, that is, the penetration region theme of macroscopic view.

In another preferred variant, penetration region theme is made up of multiple macroscopical perforates that penetrate.The macroscopic view The perforate that penetrates especially form pattern either a part for image or image, symbol or symbol sebolic addressing or coding herein.

In another preferable flexible program, penetration region theme is penetrated perforate and passed through by one or more macroscopic views Multiple microcosmic perforates that penetrate form.Macroscopical perforate (or multiple macroscopical penetrate perforate) especially shape is penetrated here, described Into pattern either a part for image or image, symbol or symbol sebolic addressing or coding.The microcosmic form for penetrating perforate It can be grating element as described above.

It is microcosmic to penetrate perforate and preferably have width exist in the range of 0.05mm to 1mm, especially in possessive construction Line thickness (in the case of online grid) or spot size in the range of 0.1mm to 0.4mm (in the case of a grid).Phase It is adjacent microcosmic to penetrate the distance between perforate (midpoint to midpoint) and be preferably in the range of 0.05mm to 1mm.

The penetration region of data medium substrate is preferably produced by the effect (being cut by laser in other words) of laser beam, is such as existed A1 of WO 2010/072329 or described in the A1 of WO 2011/154112.

It is proved that the penetration region of the filament formula in data medium substrate is extremely sensitive relative to mechanical damage, institute State penetration region and form very thin (paper) bar.In a manner of surprising, unilaterally applying thin-film component by adhesive linkage realizes The circulation stability being obviously prolonged of data medium substrate.In addition it is proved that data medium substrate penetrates out by multiple The penetration region and thin-film component that hole is formed stabilize to prevent mechanical wear and therefore more firmly with anti-tamper each other.Especially Existing by the thin-film component above multiple penetration regions for penetrating perforate formation for data medium substrate is applied to by adhesive linkage Prevent the obvious penetrating region formed by uniquely penetrating perforate than being applied to data medium substrate by adhesive linkage of damage aspect Thin-film component above domain is more firm.

In addition, can make thin-film component by the data carrier configuration according to the present invention, film Security element regards in other words Feel that outward appearance is coordinated to be adapted to the vision diseases caused by external factors of the penetration region theme of data medium substrate.

The more preferable protection of penetration region to being formed in data medium substrate can ensure in the following manner, i.e., just Thin-film component is provided respectively on face and the back side.

Preferable film Security element for example has including the sandwich construction that can interfere, the sandwich construction

- reflecting layer (the especially reflecting layer of metal)；

(it is especially in the conjunction by Al, Ag, Ni, Cr, Cu, Au and one or more aforementioned elements for-translucent (minute surface) layer Selected in the group of gold composition)；With

- the dielectric layer being arranged between reflecting layer and translucent (minute surface) layer,

Wherein, the color of sandwich construction changes with the change of viewing angle.

The first outward appearance and energy that the sandwich construction that can interfere can recognize that when by reflection light observed data carrier front The second outward appearance that the sandwich construction of interference can recognize that when by transmitted ray observed data carrier front can be advantageous by Perforate in reflecting layer and/or semitransparent layer produces.This film with different reflection light outward appearance/transmitted ray outward appearances Security element is as known to the A2 of WO 2009/149831.Semitransparent layer can for example have the perforate of multiple grid-like arrangements, they Symbol, image or pattern is integrally formed.Caused pattern is visible in reflection light and in transmitted ray in this way Disappear.Alternatively and/or additionally, different reflection light outward appearance/transmitted ray outward appearances of sandwich construction can be by with lower section Formula realizes, will the structure be combined with raised lines structure, especially diffraction raised lines structure, micro-optical raised lines structure or son Lambda structures.

Another preferable film Security element for example including sandwich construction, the sandwich construction have two semitransparent layers and The dielectric layer being arranged between two semitransparent layers, wherein, sandwich construction is when being observed with reflection light and with transmitted ray There is different tones during observation, gold is especially shown when being observed with reflection light and is shown when being observed with transmitted ray Show blue color.Two different tones especially complementary color.This sandwich construction is particularly based on two translucent minute surfaces Layer and the dielectric layer being arranged between two translucent specular layers.It is this show when being observed with reflection light gold and Show the sandwich construction of blue color for example as known to the A1 of WO 2011/082761 when being observed with transmitted ray.It is suitable as The especially metal of translucent specular layer, it is from the alloy by Al, Ag, Ni, Cr, Cu, Au and one or more aforementioned elements Selected in the group of composition, wherein, Al or Ag preferably as translucent specular layer and Al it is especially preferable.With two The appropriate sandwich construction of translucent specular layer and the dielectric layer being arranged between translucent specular layer preferably has following visitor See characteristic：

- two translucent specular layers preferably select from Al or Ag；Dielectric layer especially SiO₂Layer；

In the case that-each in two translucent specular layers is based on Al, corresponding preferable thickness in 5nm extremely In the range of 20nm, particularly preferably in the range of 10nm to 14nm；The SiO of dielectric₂Layer preferably has 50nm to 450nm scopes Thickness in the range of interior, further preferred 80nm to 260nm, wherein, 80nm to 100nm and 220nm to 240nm scope are special Ground is particularly preferred for providing golden/blueness conversion；

In the case that-each in two translucent specular layers is based on Ag, corresponding preferable thickness is in 15nm To 25nm；The SiO of dielectric₂Layer preferably has in the range of 50nm to 450nm, further preferred 80nm to 260nm models Interior thickness is enclosed, wherein, 80nm to 100nm and 220nm to 240nm scope are distinguishingly for providing golden/blueness conversion It is particularly preferred.

The sandwich construction not only realizes the generation of translucent functional layer, and the functional layer is observed with reflection light Shi Xianxian is golden and blue color is shown when being observed with transmitted ray, and can be according to the thickness of especially dielectric layer Selection produces other colour switchings, such as

- in reflection light it is in carmetta, it is in blue-green in transmitted ray；

- in reflection light it is in turquoise, it is in crocus in transmitted ray；

- in reflection light in gold, be in bluish violet in transmitted ray；

- in reflection light it is in silver color, it is in purple in transmitted ray.

Another preferable film Security element is for example shown including liquid crystal layer, the liquid crystal layer when being observed with reflection light Different color during from being observed with transmitted ray.Alternatively and/or additionally, outside different reflection lights outward appearance/transmitted ray Sight can be accomplished by the following way, i.e., be combined liquid crystal layer with raised lines structure, especially diffraction raised lines structure, micro-optical Raised lines structure or sub- lambda structures.

For another preferable film Security element for example including printing layer, the printing layer has effect pigment composition, described Effect pigment composition shows color different during from being observed with transmitted ray when being observed with reflection light, especially show it is golden/ Blueness conversion, gold/purple conversion, green-gold/carmetta conversion, purple/green conversion or silver color/light tight colour switching. These process colors are for example described in the A2 of WO 2011/064162.Alternatively and/or additionally, different reflection light outward appearances/ Transmitted ray outward appearance can be accomplished by the following way, i.e., be combined printing layer with raised lines structure, especially diffraction burr knot Structure, micro-optical raised lines structure or sub- lambda structures.

Other embodiments and advantages of the present invention are illustrated below according to accompanying drawing, chi is not drawn in the view of accompanying drawing Or present pari passu, to improve intuitive.In the accompanying drawings：

Fig. 1 shows the top view of valuable document, and the valuable document has penetration region and is arranged in above penetration region Film Security element；

Fig. 2 shows the viewgraph of cross-section of the valuable document according to comparative examples；

Fig. 3 shows the viewgraph of cross-section of the valuable document of the example according to the present invention；

Fig. 4 shows the situation in reflection light according to the part of the film Security element of the first embodiment of the present invention；

Fig. 5 shows the situation in transmitted ray according to the part of the film Security element of the first embodiment of the present invention；

Fig. 6 shows the part of the paper substrates with penetration region according to the first embodiment of the present invention；

Fig. 7 shows transmiting according to the film Security element and paper substrates (each part) of the first embodiment of the present invention Situation in light；

Fig. 8 shows the viewgraph of cross-section of the valuable document according to another embodiment of the present invention；

Fig. 9 shows the situation in reflection light according to the part of the film Security element of the second embodiment of the present invention；

Figure 10 shows the situation in transmitted ray according to the part of the film Security element of the second embodiment of the present invention；

Figure 11 shows the part of the paper substrates with penetration region according to the second embodiment of the present invention；

Figure 12 shows film Security element and paper substrates (each part) according to the second embodiment of the present invention saturating The situation penetrated in light；

Figure 13 shows the situation in reflection light according to the part of the film Security element of the third embodiment of the present invention；

Figure 14 shows the situation in transmitted ray according to the part of the film Security element of the third embodiment of the present invention；

Figure 15 shows the part of the paper substrates with penetration region according to the third embodiment of the present invention；

Figure 16 shows film Security element and paper substrates (each part) according to the third embodiment of the present invention saturating The situation penetrated in light.

Fig. 1 shows valuable document 1, is the top view of banknote in the present embodiment.Banknote 1 has penetration region 2, and (dotted line shows Show).Banknote 1 is equipped with film Security element 3 in its front, and the film Security element unilaterally covers the penetrating region of banknote 1 Domain 2.

Fig. 2 is shown according to comparative examples with (being obtained along the cutting line A-A ' cuttings shown in Fig. 1) viewgraph of cross-section Valuable document 4.The valuable document 4 is based on paper substrates 5, and it has the perforate 6 uniquely penetrated.The perforate 6 is by punching press Produce and observe in a top view by size for 1cm × 1cm it is square in the form of be in paper substrates 5 in.Valuable document 4 exists Front is equipped with film Security element 7, and the film Security element, which unilaterally covers, penetrates perforate 6.Film Security element 7 by The adhesive linkage (not shown in figures) of edge shape is fixed in paper substrates 5.

Valuable document 4 shown in Fig. 2 undergoes experimental research, in the research, by by valuable document and dirt It is in contact with mechanical load and simulates the circulation stability of valuable document.The result of research shows, under extreme test condition, film The part of 7 top of square openings 6 penetrated for being directly in paper substrates 5 is damaged completely.Around the side of square openings 6 In edge region, it is intact that film 7, which still has some,.

Fig. 3 shows one according to the present invention with (being obtained along the cutting line A-A ' cuttings shown in Fig. 1) viewgraph of cross-section The valuable document 8 of individual embodiment.The valuable document 8 is based on the paper substrates 9 with penetration region 10, and the penetration region is by more The individual perforate for penetrating paper substrates 9 is formed.In the embodiment shown, penetration region 10 has the outward appearance according to Figure 11, wherein, black Represent the region cut by laser cutting from paper, and the paper region that white expression retains after laser treatment.Institute Show in embodiment, the paper region retained after laser treatment forms " macroscopical " symbol sebolic addressing " PL ", and it is thin by 16 Linear paper slip surround.Penetration region 10 observe in a top view by size for 1cm × 1cm it is square in the form of be in paper gasket In bottom 9.Valuable document 8 is equipped with film Security element 11 in front, and the film Security element unilaterally covers penetration region 10.Film Security element 11 is fixed in paper substrates 9 by the adhesive linkage (not shown in figures) of edge shape.

Valuable document 8 shown in Fig. 3 undergoes the experimental research same with comparative examples before, wherein by will be valuable File is in contact with dirt and mechanical load simulates the circulation stability of valuable document.The result of research shows, in extreme survey Under the conditions of examination, although the part abrasion of the top of penetration region 10 for being directly in paper substrates 9 of film 11, not just like before Comparative examples damage completely like that.

Fig. 4 shows the local feelings in reflection light of the film Security element 12 according to the first embodiment of the present invention Shape.When by reflection light viewing film Security element 12, observer sees the region 13 described brightly, and (form is day It is empty) and the region 14 (form for have wavy sea) more secretly described.

Fig. 5 shows the part of the film Security element 12 when being observed by transmitted ray.Observer except retouching brightly Outside the region 13 (form is sky) painted and the region 14 (form is the wavy sea of tool) more secretly described, additionally see The region 15 more secretly described (form is the sun).

Film Security element 12 based on Figure 4 and 5 can for example have film-substrate (such as polyethylene terephthalate Ester), it is furnished with three layers of the structure that can interfere, (see, for example, WO as described in the A2 of WO 2009/149831 Fig. 1 in 2009/149831 A2 and 5).

Fig. 6 shows the penetration region of paper substrates 16, and it should be equipped with Fig. 4 and Fig. 5 film Security element 12.Paper substrates 16 With paper region 17 (being shown as white in figure 6), cut out by punching press or by being cut by laser from the paper region Paper region 18.The paper region 18 is collectively forming penetration region theme (form is island and palm).

Fig. 7 shows the paper substrates 16 of observation Fig. 6 in transmitted ray, and the paper substrates are equipped with Fig. 4 and Fig. 5 film is prevented Pseudo- element 12.Observer addedly sees except the outward appearance of the film Security element 12 in reflection light (referring to Fig. 5) to be penetrated Area topic 18 (referring to Fig. 6).

Fig. 8 shows the viewgraph of cross-section of the valuable document 19 according to another embodiment of the present invention.With it is valuable shown in Fig. 3 File 8 is different, and Fig. 8 valuable document 19 has the paper substrates 20 with penetration region 21, and the penetration region is in front and back Film Security element 23 or thin-film component 22 are equipped respectively.The penetration region in paper substrates 20 is especially protected in this way 21 with anti-tamper.Film Security element 23 can be for example based on the film Security element 12 for combining Figure 4 and 5 description before, and it is borrowed Adhesive linkage is helped to be fixed in paper substrates 20.Thin-film component 22 equally can be film Security element, that is, be equipped with false proof spy Sign, the thin-film component of such as hologram or security stamp.In addition, thin-film component 22 can be analogous to the ground of film Security element 23 The film Security element of acquisition.By the collective effect of two films 22 and 23, it can with collaborative be lifted and existed for observer Outward appearance in transmitted ray.But thin-film component 22 can also be that traditional film (does not have false proof spy in the simplest situations Sign), it is fixed in paper substrates 20 by adhesive linkage.

Fig. 9 shows the situation when reflection light is observed according to the film Security element 24 of the second embodiment of the present invention. Observer sees form for golden region 25 and 26.Region 26 forms symbol sebolic addressing " 50 " and shows phase for observer It is the real three-dimensional arching face in fascinating ground than the form of background 25.

Film Security element 24 includes film-substrate and sandwich construction, and the sandwich construction has two semitransparent layers and cloth The dielectric layer between two semitransparent layers is put, the sandwich construction shows gold when being observed by reflection light and logical Blue color is shown when crossing transmitted ray observation.This sandwich construction is as known to the A1 of WO 2011/082761.Sandwich construction also exists It is combined in region 26 with micro-optical raised lines structure.The manufacture of micro-optical raised lines structure it is well known in the art (such as Referring to the A2 of WO 2014/060089).Here, film-substrate is equipped with impressing paint first, it regionally has micro-optical convex Line structure.Then application sandwich construction is painted in impressing, it has two semitransparent layers and is arranged between two semitransparent layers Dielectric layer.

Figure 10 shows to observe Fig. 9 film Security element 24 in transmitted ray.The form of film that observer sees is whole The unified region 27 with blue color in individual face.

Figure 11 shows the penetration region 28 for the paper substrates that should be combined with Fig. 9 and 10 film Security element 24.Black table Show the region cut out by laser cutting from paper.White represents the paper region retained after laser treatment in fig. 11. In the embodiment shown, the paper region retained after laser treatment forms " macroscopical " symbol sebolic addressing " PL ", and it is by 16 Thin linear paper slip surrounds.The form in region 28 is the square that size is 1cm × 1cm.

Figure 12 shows to observe the paper substrates 28 shown in Figure 11, its film Security element with Fig. 9 and 10 in transmitted ray 24 are combined.Observer sees that the region that black is shown as in Figure 12 can be perceived as the gold of dark background version, before it The region for being shown as white in fig. 12 is significantly protruded by blue color with the appearance forrns of brighter visual appearance.

Figure 13 shows that observation is according to the film Security element 29 of the third embodiment of the present invention in reflection light.Observer See form for golden region 30 and 31.Region 31 forms symbol sebolic addressing " 50 " and shown for observer compared to background 30 forms are the real three-dimensional arching face in fascinating ground.

Film Security element 29 includes film-substrate and sandwich construction, and the sandwich construction has two semitransparent layers and cloth The dielectric layer between two semitransparent layers is put, the sandwich construction shows gold when being observed by reflection light and logical Blue color is shown when crossing transmitted ray observation.This sandwich construction is as known to the A1 of WO 2011/082761.Sandwich construction also exists It is combined in region 31 with micro-optical raised lines structure.The manufacture of micro-optical raised lines structure it is well known in the art (such as Referring to the A2 of WO 2014/060089).

Figure 14 shows to observe Figure 13 film Security element 29 in transmitted ray.The form of film that observer sees is whole The unified region 32 with blue color in individual face.

Figure 15 shows the penetration region 33 for the paper substrates that should be combined with the film Security element 29 of Figure 13 and 14.Black table Show the region cut out by laser cutting from paper.White represents the paper region retained after laser treatment in fig.15. The form in shown region 33 is the square that size is 1cm × 1cm.

Figure 16 shows to observe the paper substrates 33 shown in Figure 15, its film Security element with Figure 13 and 14 in transmitted ray 29 are combined.Observer, which observes, to be shown as the region of black and can be perceived as the gold of dark background version in Figure 16, before it The region for being shown as white in figure 16 is significantly protruded by blue color with the appearance forrns of brighter visual appearance.

In embodiment more than, the penetration region in paper substrates only exemplarily has 1cm × 1cm size and pros The shape of shape.Itself self-evidently can arbitrarily select the accurate size and precise shapes (square shape of penetration region Shape, rectangular shape, trapezoidal shape, circle, avette, arch door shape etc.).

Claims (13)

1. a kind of data medium, especially valuable document or cheque paper, including the data medium substrate with penetration region, institute Stating data medium substrate has front and back, wherein

The front of-data medium substrate is equipped with film Security element in penetration region；

The penetration region of-data medium substrate is made up of multiple perforates for penetrating data carrier substrates, the common shape of perforate Into penetration region theme, wherein, penetration region theme can not be identified when with the front of reflection light observed data carrier and Covered by film Security element, and film Security element quilt can be passed through when with the front of transmitted ray observed data carrier Identify；And

- film Security element shows the first outward appearance when with the front of reflection light observed data carrier, and with transmitted light Second outward appearance of penetration region theme of the display supplemented with data medium substrate during the front of line observed data carrier.

2. the data medium as described in claim 1, wherein, film Security element has the sandwich construction that can interfere, described more Rotating fields have reflecting layer, semitransparent layer and the dielectric layer being arranged between reflecting layer and semitransparent layer, wherein, the multilayer knot The color of structure changes with the change of viewing angle.

3. the data medium as described in claim 2, wherein, the sandwich construction that can interfere carries with reflection light observed data Energy when with transmitted ray observed data carrier front of the first outward appearance that can be identified during body front and the sandwich construction that can interfere Second outward appearance of identification is based on the perforate in reflecting layer and/or semitransparent layer.

4. the data medium as described in claim 1, wherein, film Security element has sandwich construction, the sandwich construction tool There are two semitransparent layers and the dielectric layer being arranged between two semitransparent layers, wherein, sandwich construction is observed with reflection light When and there is when being observed with transmitted ray different tones.

5. the data medium as described in claim 1, wherein, film Security element has a liquid crystal layer, and the liquid crystal layer is with anti- Different color when display with transmitted ray from being observed when penetrating visible light.

6. the data medium as described in claim 1, wherein, film Security element has printing layer, and the printing layer has effect Pigment composition is answered, the effect pigment composition shows face different during from being observed with transmitted ray when being observed with reflection light Color.

7. the data medium as described in one of claim 2 to 4, wherein, the sandwich construction is combined with raised lines structure, especially It is to be combined with diffraction raised lines structure, micro-optical raised lines structure or sub- lambda structures.

8. the data medium as described in claim 5, wherein, the liquid crystal layer is combined with raised lines structure, especially with diffraction Raised lines structure, micro-optical raised lines structure or sub- lambda structures are combined.

9. the data medium as described in claim 6, wherein, the printing layer is combined with raised lines structure, especially with diffraction Raised lines structure, micro-optical raised lines structure or sub- lambda structures are combined.

10. the data medium as described in one of claim 7 to 10, wherein, raised lines structure causes to see with reflection light When examining the front of data medium can visual identity but can not when with the front of transmitted ray observed data carrier can vision know Other outward appearance.

11. the data medium as described in one of claim 1 to 10, wherein, penetration region master is formed in data medium substrate The perforate penetrated of topic can be obtained by effect of the laser beam on data medium substrate.

12. the data medium as described in one of claim 1 to 11, wherein, the back side of data medium substrate is in penetration region Thin-film component, especially film Security element are equipped with, itself and the false proof member of the film being arranged on the front of data medium substrate Part independently selects.

13. the data medium as described in claim 12, wherein, the back side of data medium substrate is equipped thin in penetration region Film Security element, the film Security element show the first outward appearance when with the reflection light observed data carrier back side, and With the second outward appearance of penetration region theme of the display supplemented with data medium substrate during the transmitted ray observed data carrier back side.