EP3088202A2 - Valuable document substrate, lamination film and valuable document - Google Patents

Abstract

The invention relates to a value document substrate for producing documents of value, in particular of banknotes, having a front side and a back side, the front side of the document of value substrate (1) having in one subarea an UV radiation sensitive security feature (2) and one opposite UV-sensitive security feature having protective, transparent, substantially impermeable to UV radiation film (3), wherein the document of value substrate (1) at least in the partial region of the ultraviolet sensitive security feature (2) for UV radiation substantially impermeable is.

Description

The invention relates to a value-document substrate for producing value documents, in particular banknotes, a laminating film for the production of the value-document substrate and a value document with the value-document substrate.

Securities or identity documents, or other valuables, such as branded goods, are often provided with security elements for the purpose of security, which permit verification of the authenticity of the data carriers and at the same time serve as protection against unauthorized reproduction. Security elements with viewing-angle-dependent effects play a special role in the authentication of authenticity since they can not be reproduced even with the most modern copiers. The security elements are equipped with optically variable elements that give the viewer a different image impression under different viewing angles and, for example, show a different color or brightness impression and / or another graphic motif depending on the viewing angle.

In this context, it is known to use security elements with multilayer thin-film elements whose color impression changes with the viewing angle for the viewer (referred to below as the color-shift effect). The color shift effect in such thin-film elements is based on viewing angle-dependent interference effects due to multiple reflections in the different sub-layers of the element. The path difference of the light reflected at the different layers depends, on the one hand, on the optical thickness of a dielectric spacer layer, which defines the distance between a semi-transparent absorber layer and a reflection layer, and on the other hand varies with the respective viewing angle. Since the path difference is on the order of the wavelength of the visible light, the result is an angle-dependent color impression for the viewer due to the extinction and amplification of certain wavelengths. By a suitable choice of material and thickness of the dielectric spacer layer a variety of different color shift effects can be designed.

In addition, pigment-like thin-film elements or interference pigments are known, which are mixed, for example, a printing ink. Such interference pigments typically have a thin film structure that includes a reflective layer, a partially transparent layer, and one or more intervening dielectric spacer layers. These are based, for example, on mica, on SiO ₂ or on Al ₂ O ₃ . Such interference layers are referred to as one or more layers according to the number of dielectric layers. Pigments such thin film interference layers are known for example under the name Iriodin ^® (single layer) or Colorcrypt ^® (multi-layer). Printing colors with multi-layer interference layer pigments are also known under the name OVI ^®.

A subgroup of the interference pigments are pigments formed on the basis of a liquid crystal layer with a color shift effect. Optically variable elements made of liquid crystal layers are mostly transparent and are known in the art (see for example the WO 2006/034780 A1 ). The visual detectability of the color shift effect of a liquid crystal layer can be enhanced by means of a black background, which is produced, for example, by a black color layer as the background.

Furthermore, compositions with thermochromic pigments are used to produce an optically variable security feature. When heat is applied to such a security feature, an optical impression is created for the viewer, which differs from the visual impression before being exposed to heat. Thermochromic inks based on encapsulated liquid crystals, for example, have a first color at room temperature for the viewer on a black background and undergo a color change to a second color when exposed to temperature. Leuco-Dyes are colored, e.g. black, and may change color as the temperature increases. In particular, a colored, e.g. black, leuco-dye become colorless.

In particular, the thermochromic pigments may have significant sensitivity to UV radiation. In the following, "UV radiation" is understood to mean electromagnetic radiation in the wavelength range of less than 380 nm, while the wavelength range from 380 nm to approximately 780 nm is referred to as "visible wavelength range". Since daylight has some degree of UV radiation in the wavelength range of less than 380 nm, security elements or value documents with UV-sensitive, optically variable colorants are not very lightfast, i. the colorants are not resistant to UV radiation and change e.g. their color.

In the literature, a distinction is made between "UV-A", "UV-B" and "UV-C". UV-A denotes a wavelength range of 380 to 315nm, UV-B a wavelength range of 315 to 280nm and UV-C a wavelength range of 280 to 200nm.

Due to the better durability and process advantages, there is a trend towards UV-drying paints and varnishes. This means that sensitive UV-curing materials can also be permanently damaged in their functionality through the use of UV dryers in the printing presses.

To improve the light fastness of compositions with UV-sensitive, optically variable colorants, UV absorbers can be incorporated. Since the UV absorber is present statistically distributed in the binder and thus only a fraction of the added UV absorber protects the protected optically variable colorant from UV radiation, it is inevitable to work with high concentrations of the UV absorber. Against this background was in the EP 2 463 344 A1 proposed to protect the UV-sensitive, optically variable colorant in the form of a core-shell particle by means of a UV-radiation-absorbing shell. The encapsulation of the optically variable colorant inevitably leads to a reduction in the effective amount of colorant in the subsequent production of a printing ink, ie when introducing the core-shell particles into a binder matrix. A further disadvantage is that the capsule wall for achieving the desired effect, namely a sufficient UV protection, must be sufficiently thick. The relatively large particles obtained in this way can no longer be applied to a substrate to be printed by certain printing processes (for example by means of offset printing) in which the layer thickness of the applied printing ink is limited to thin layer thicknesses (eg a maximum of two micrometers). When applying the materials by screen printing, this leads to very high layer thicknesses.

The invention has for its object to overcome the disadvantages of the prior art. In particular, the protection against counterfeiting of documents of value which contain UV-sensitive security features should be ensured in the long term.

This object is achieved by the feature combinations defined in the independent claims. Further developments of the invention are the subject of the dependent claims.

• 1. (Erster Aspekt der Erfindung) Wertdokument-Substrat zur Herstellung von Wertdokumenten, insbesondere von Banknoten, mit einer ersten Seite (bzw. Vorderseite) und einer gegenüberliegenden zweiten Seite (bzw. Rückseite), wobei die erste Seite des Wertdokument-Substrats in einem Teilbereich ein gegenüber UV-Strahlung empfindliches Sicherheitsmerkmal und eine das gegenüber UV-Strahlung empfindliche Sicherheitsmerkmal schützende, transparente, für UV-Strahlung im Wesentlichen undurchlässige Folie aufweist, wobei das Wertdokument-Substrat zumindest im Teilbereich des gegenüber UV-Strahlung empfindlichen Sicherheitsmerkmals für UV-Strahlung im Wesentlichen undurchlässig ist. Mit "transparent" ist im VIS-Bereich transparent gemeint.
• 2. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach Absatz 1, wobei die das gegenüber UV-Strahlung empfindliche Sicherheitsmerkmal schützende, transparente, für UV-Strahlung im Wesentlichen undurchlässige Folie auf einem UV-Absorber aufweisenden Polymer-Substrat basiert.

Summary of the invention

• 1. (First aspect of the invention) value document substrate for producing value documents, in particular banknotes, having a first side (or front side) and an opposite second side (or back side), wherein the first side of the value document substrate in a Part area has a sensitive to UV radiation security feature and a UV-sensitive security feature protecting, transparent, substantially impermeable to UV radiation film, wherein the document of value substrate at least in the sub-region of the ultraviolet sensitive security feature for UV radiation is essentially impermeable. "Transparent" means transparent in the VIS area.
• 2. (Preferred embodiment) value-document substrate according to paragraph 1, wherein the sensitive to UV radiation security feature, transparent, UV radiation substantially impermeable film based on a UV absorber having polymer substrate.

• 3. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach Absatz 1 oder 2, wobei das Wertdokument-Substrat ein Papier-Substrat ist, vorzugsweise ein Papier-Substrat, das zumindest im Teilbereich des gegenüber UV-Strahlung empfindlichen Sicherheitsmerkmals eine schwarze Farbschicht aufweist.
• 4. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach Absatz 1 oder 2, wobei das Wertdokument-Substrat ein Polymer-Substrat ist, das zumindest im Teilbereich des gegenüber UV-Strahlung empfindlichen Sicherheitsmerkmals UV-Absorber aufweist, vorzugsweise ein Polymer-Substrat, das zumindest im Teilbereich des gegenüber UV-Strahlung empfindlichen Sicherheitsmerkmals eine schwarze, UV-Absorber enthaltende Farbschicht aufweist.
• 5. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach Absatz 4, wobei das das Wertdokument-Substrat bildende Polymer-Substrat von den folgenden Alternativen gewählt ist:
  1. a) ein Polymer-Substrat mit einer deckenden Farbannahmeschicht, die einen UV-Absorber, insbesondere TiO₂, enthält;
  2. b) ein Polymer-Substrat, das an der Oberfläche und/ oder innerhalb des Polymergerüsts UV-Absorber enthält.
• 6. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach einem der Absätze 1 bis 5, wobei das gegenüber UV-Strahlung empfindliche Sicherheitsmerkmal von den folgenden Alternativen gewählt ist:
  1. a) ein auf einer thermochromen Farbe basierendes Sicherheitsmerkmal, wobei die thermochrome Farbe bevorzugt auf einem Leuco-Dye oder einem flüssigkristallinem Material, weiter bevorzugt auf flüssigkristallines Material enthaltenden Mikrokapseln beruht;
  2. b) ein auf einem organischen Lumineszenzstoff basierendes Sicherheitsmerkmal;
  3. c) photochromes Material (z.B. photochrome organische Farbstoffe; Bacteriorhodopsin).

Suitable UV absorbers are, for example, Tinuvin types from BASF, benzotriazoles, nanoscale TiO ₂ , titanium oxide doped with metal (in particular Fe, V and / or Cr), namely hindered amine light stabilizers.

• 3. (Preferred embodiment) value-document substrate according to paragraph 1 or 2, wherein the document of value substrate is a paper substrate, preferably a paper substrate, which has a black color layer at least in the partial area of the sensitive to UV radiation security feature.
• 4. (Preferred embodiment) value-document substrate according to paragraph 1 or 2, wherein the document of value substrate is a polymer substrate having at least in the partial region of the UV-sensitive security feature UV absorber, preferably a polymer substrate, at least in the partial region of the UV-sensitive security feature has a black, UV absorber-containing ink layer.
• 5. (Preferred embodiment) value-document substrate according to paragraph 4, wherein the substrate substrate forming the value-document substrate is selected from the following alternatives:
  1. a) a polymer substrate having a covering ink-receiving layer which contains a UV absorber, in particular TiO ₂ ;
  2. b) a polymer substrate which contains on the surface and / or within the polymer backbone UV absorber.
• 6. (Preferred Embodiment) Value document substrate according to any one of paragraphs 1 to 5, wherein the sensitive to UV radiation security feature is selected from the following alternatives:
  1. a) a security feature based on a thermochromic ink, wherein the thermochromic ink is preferably based on a leuco dye or a liquid crystal material, more preferably microcapsules containing liquid crystal material;
  2. b) an organic luminescent-based security feature;
  3. c) photochromic material (eg photochromic organic dyes, bacteriorhodopsin).

• 7. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach einem der Absätze 1 bis 6, wobei zwischen dem gegenüber UV-Strahlung empfindlichen Sicherheitsmerkmal und der schützenden Folie eine transparente oder transluzente optisch variable Schicht angeordnet ist, die insbesondere von der Gruppe bestehend aus einer Flüssigkristallschicht mit Farbkippeffekt, einer Hologramm-Schicht und einer Effektpigment-Schicht gewählt ist.
• 8. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach einem der Absätze 3 oder 4, oder einem der auf Absatz 3 oder 4 rückbezogenen Absätze 5 bis 8, wobei ein Teilbereich der schwarzen Farbschicht auf einem schwarzen Leuco-Dye basiert. Der schwarze Leuco-Dye wird bei WärmeBeaufschlagung insbesondere farblos.
• 9. (Bevorzugte Ausgestaltung) Wertdokument-Substrat nach einem der Absätze 1 bis 8, wobei das Wertdokument-Substrat zumindest in dem Teilbereich, in dem das gegenüber UV-Strahlung empfindliche Sicherheitsmerkmal angeordnet ist, transparent ist. Mit "transparent" ist im VIS-Bereich transparent gemeint.
• 10. (Zweiter Aspekt der Erfindung) Laminierfolie zur Herstellung des Wertdokument-Substrats nach einem der Absätze 1 bis 9, umfassend
  • eine im VIS-Bereich transparente, für UV-Strahlung im Wesentlichen undurchlässige Folie;
  • gegebenenfalls eine transparente oder transluzente optisch variable Schicht, die insbesondere von der Gruppe bestehend aus einer Flüssigkristallschicht mit Farbkippeffekt, einer Hologramm-Schicht und einer Effektpigment-Schicht gewählt ist;
  • ein gegenüber UV-Strahlung empfindliches Sicherheitsmerkmal;
  • eine Klebschicht für das Aufbringen der Laminierfolie auf ein Wertdokument-Substrat.
• 11. (Dritter Aspekt der Erfindung) Wertdokument, insbesondere eine Banknote, umfassend ein Wertdokument-Substrat nach einem der Absätze 1 bis 9.

The security feature may also contain additional color components, eg interference pigments, colored pigments, IR-absorbing substances or laser-sensitive substances such as laser markers.

• 7. (Preferred embodiment) value-document substrate according to any one of paragraphs 1 to 6, wherein between the sensitive to ultraviolet radiation security feature and the protective film, a transparent or translucent optically variable layer is arranged, in particular of the group consisting of a liquid crystal layer Color shift effect, a hologram layer and an effect pigment layer is selected.
• 8. (Preferred Embodiment) Document of value substrate according to paragraph 3 or 4, or one of the paragraphs 5 to 8 referred back to paragraph 3 or 4, wherein a portion of the black color layer is based on a black leuco dye. The black leuco dye becomes particularly colorless when exposed to heat.
• 9. (Preferred embodiment) value-document substrate according to one of the paragraphs 1 to 8, wherein the document of value substrate is transparent at least in the partial area in which the security feature sensitive to UV radiation is arranged. "Transparent" means transparent in the VIS area.
• 10. (Second aspect of the invention) A laminating film for producing the valuable document substrate according to any one of paragraphs 1 to 9, comprising
  • a transparent in the VIS range, for UV radiation substantially impermeable film;
  • optionally a transparent or translucent optically variable layer selected, in particular, from the group consisting of a liquid crystal layer with a color shift effect, a hologram layer and an effect pigment layer;
  • a UV-sensitive security feature;
  • an adhesive layer for applying the laminating film to a value-document substrate.
• 11. (Third aspect of the invention) value document, in particular a banknote, comprising a value-document substrate according to one of the paragraphs 1 to 9.

Detailed description of the invention

According to the invention, a value-document substrate having on the front side a security feature which is sensitive to ultraviolet radiation is provided, with a transparent, UV-radiation-protecting, protective element for UV radiation To provide impermeable film as a cover. The value-document substrate itself can be based, for example, on a paper substrate. Paper contains titanium dioxide and is therefore UV absorbing. The document of value may further be coated on a (in particular transparent) polymer substrate, on a film / paper / film composite substrate (see, for example, US Pat WO 2004/028825 A2 ) or on a paper / foil / paper composite substrate (see eg WO 2006/066431 A1 ). In the case of a film / paper / film composite substrate, the central paper layer may have a recess to provide in this way a see-through window area in which, for example, the UV-labile security feature can be placed; In particular, in this case, not only the UV-labile security feature covering film, but also at least one of the films of the film / paper / foil composite substrate at least in the region of the recess in the central paper layer in the form of a substantially impermeable to UV radiation film so that the security feature to be protected is protected on both sides by two foils. In the case of a paper / foil / paper composite substrate, the two outer paper layers may each have a recess to provide in this way a see-through window area in which, for example, the UV-labile security feature can be arranged; In particular, in this case not only the UV-labile security feature covering film, but also the film of the paper / foil / paper composite substrate, at least in the region of the recesses in the paper layers in the form of a UV radiation substantially impermeable film, so the security feature to be protected is protected on both sides by two foils. Furthermore, the value-document substrate may be based on a paper substrate which has a continuous recess, wherein the continuous recess on at least one side of the paper substrate is covered by a transparent film (see, for example, US Pat WHERE 2011/015622 A1 ); In particular, the UV-labile security feature can be arranged in the region of the continuous recess, in which case not only the film covering the UV-labile security feature, but also the transparent film covering the continuous recess in the form of a substantially impermeable to UV radiation Can be present film, so that the security feature to be protected is protected on both sides by two films. According to a further specific embodiment, not only the film covering the security feature but also the value-document substrate itself may be in the form of a polymer substrate which is substantially impermeable to UV radiation at least in a sub-region, so that the security feature to be protected is protected on both sides by two films is. Polymer-based value-document substrates are known in the art. Usually, the transparent polymer substrate is coated on both sides with an opaque, titanium dioxide-containing and therefore UV-absorbing ink-accepting layer. By providing a recess in the opaque layer, a window area visible to the viewer can be created.

A substantially impermeable to UV radiation film can be obtained for example by the addition of special UV absorbers. Suitable UV absorbers are, for example, Tinuvin types from BASF, benzotriazoles, nanoscale TiO ₂ , titanium oxide doped with metal (in particular Fe, V and / or Cr), namely hindered amine light stabilizers. Preferably, Tinuvin are used as UV absorbers, with Tinuvin 400 and Tinuvin 1130 being particularly preferred.

Suitable film or polymer substrate are, for example, polyesters, polyolefins (for example PE, PP, BOPP), polyamides or polycarbonates. Polyester films, in particular polyethylene terephthalate films (PET films), are preferably used. The layer thickness of the film is for example 2 to 100 micrometers, preferably 2 to 20 micrometers. Composites or laminates of several films can also be used, for example an LLDPE / PP / LLDPE film (LLDPE = linear low-density polyethylene, PP = polypropylene), see Angewandte Chemie, 2010, Volume 122, pages 2-13 ,

It is expedient to apply the UV absorbers in the form of a separate coating layer or a printed layer on the film. With a high concentration of the UV absorber within the composition forming the UV-absorbing layer, a film provided therewith can achieve the effect of a cut-off filter, so that the UV protection is complete at a certain wavelength. Depending on the UV absorber used, the film has a yellowish coloration if the UV absorber concentrations are too high.

Furthermore, the UV absorber can also be used in the step of producing the film, e.g. by extrusion, are introduced into the film.

The term "UV radiation substantially impermeable film" is to be understood such that the electromagnetic radiation in the wavelength range of less than 380 nm in the transmission in an amount of at least 40%, preferably at least 80%, particularly preferably at least 90%, is reduced.

The value document according to the invention can be a banknote, in particular a paper banknote, a polymer banknote or a film composite banknote, a share, a bond, a certificate, a coupon, a check, a high-quality admission ticket, but also a banknote Card, such as a credit card, a bank card, a cash card, an authorization card, an identity card or Passpersonalisierungsseite act.

Further exemplary embodiments and advantages of the invention are explained below with reference to the figures, in the representation of which a representation true to scale and proportion has been dispensed with in order to increase the clarity.

Figur 1

ein Beispiel eines erfindungsgemäßen Wertdokument-Substrats;

Figur 2

eine Herstellung eines erfindungsgemäßen Wertdokument-Substrats mit einer Laminierfolie gemäß dem zweiten Aspekt der Erfindung;

Figur 3

eine weitere Herstellung eines erfindungsgemäßen Wertdokument-Substrats mit einer Laminierfolie gemäß dem zweiten Aspekt der Erfindung;

Figur 4

ein weiteres erfindungsgemäßes Wertdokument-Substrat; und

Figur 5

ein weiteres erfindungsgemäßes Wertdokument-Substrat.

Show it:

FIG. 1

an example of a value document substrate according to the invention;

FIG. 2

a production of a value-document substrate according to the invention with a laminating film according to the second aspect of the invention;

FIG. 3

a further production of a value document substrate according to the invention with a laminating film according to the second aspect of the invention;

FIG. 4

another valuable document substrate according to the invention; and

FIG. 5

another valuable document substrate according to the invention.

FIG. 1 shows a valuable document substrate according to the invention according to the first aspect of the invention. The substrate used is an opaque paper substrate 1, which may optionally be provided with perforations, recesses or windows 1b. The paper substrate 1 is partially overprinted with a black paint 5a (eg, with a carbon black-based paint). In addition, a thermochromic, black color 5b based on so-called Leuco-Dyes is used. The black, thermochromic paint 5b is black at room temperature and has a release temperature of 30 ° C. When the temperature is raised to 30 ° C., the thermochromic ink in particular becomes colorless. The black paint 5a, 5b is partially provided with a thermochromic, encapsulated liquid crystal based screen printing ink 2. The thermochromic screen printing ink 2 is sensitive to UV radiation. Above the thermochromic screen printing ink 2 is a transparent effect color 4. In the layer 4, the region 4b is merely optional, ie not mandatory. The areas 4a are mandatory. The layer 4 may be based, for example, on interference pigments or on a crosslinked liquid crystal layer with a color shift effect. When viewing the front of the banknote, the color shift effect of the transparent layer 4 becomes visible due to the black background 5a, 5b. The thermochromic paint 2 is in the non-activated state, ie at room temperature, transparent (ie transparent on black background). When the temperature increases, the color of the thermochromic screen printing ink 2 changes, for example, to a blue-green. However, this color is visible only in the area in which there is an underlying black color 5a or 5b. When the temperature rises to the triggering temperature of the region 5b, the region 5b becomes colorless, so that neither the color 2; even the color 4 shows an effect. As a protection against UV radiation, the paper substrate 1 is at least on the front with a laminated, transparent, for UV radiation in Substantially impervious film 3 provided. For this purpose, a PET film is used, which has a coating based on a UV absorber-containing composition to increase the UV-opacity on its front and / or back. In the value-document substrates shown in the figures, additional layers may be present, eg, a heat-seal adhesive layer sandwiched between paper substrate and film, a primer layer, and / or a paint-accepting layer (which is preferably opaque and based on TiO ₂ ) which was omitted for simplicity's drawing.

The UV absorber may alternatively be incorporated in the film itself, e.g. For example, in the step of producing the film, the UV absorber may be extruded into the film by extrusion.

FIG. 2 shows the production of a value-document substrate according to the first aspect of the invention. The paper substrate 1 is partially overprinted with a black, soot-based paint 5a. In addition, a thermochromic, black color 5b based on so-called Leuco-Dyes is used. The black, thermochromic paint 5b is black at room temperature and has a release temperature of 30 ° C. When the temperature increases, the color becomes, in particular, colorless.

• ein transparentes, für UV-Strahlung im Wesentlichen undurchlässiges Foliensubstrat 3; im Beispiel wird eine PET-Folie verwendet, die zur Steigerung der UV-Undurchlässigkeit auf ihrer Vorder- und/oder Rückseite eine Beschichtung auf Basis einer UV-Absorber enthaltenden Zusammensetzung aufweist;
• eine gedruckte, auf einer transparenten Effektfarbe 4 basierende Schicht; die Schicht 4 kann z.B. auf Interferenzpigmenten oder auf einer Flüssigkristall-Schicht mit Farbkippeffekt beruhen;
• eine gedruckte thermochrome Schicht 2, insbesondere ein Siebdruck auf Basis verkapselter Flüssigkristalle;
• einen Heißsiegelkleber 6.

Separately, a laminating film is produced comprising

• a transparent film substrate 3 which is substantially impermeable to UV radiation; in the example, a PET film is used which has a coating based on a composition containing UV absorbers to increase the UV impermeability on its front and / or back;
• a printed layer based on a transparent effect color 4; the layer 4 may be based, for example, on interference pigments or on a liquid crystal layer with a color shift effect;
• a printed thermochromic layer 2, in particular a screen printing based on encapsulated liquid crystals;
• a heat seal adhesive 6.

The in the FIG. 2 The laminating film shown is applied in a subsequent step by means of pressure and elevated temperature to the paper substrate 1 containing the black printing layer 5a, 5b. In layer 4, area 4b is merely optional, ie not mandatory. The areas 4a are mandatory.

FIG. 3 shows a further production of a value-document substrate according to the first aspect of the invention. The paper substrate 1 is partially overprinted with a black, soot-based paint 5a. In addition, a thermochromic, black color 5b based on so-called leucodyes is used. The black, thermochromic paint 5b is black at room temperature and has a release temperature of 30 ° C. When the temperature increases, the color becomes, in particular, colorless.

• ein transparentes, für UV-Strahlung im Wesentlichen undurchlässiges Foliensubstrat 3; im Beispiel wird eine PET-Folie verwendet, die zur Steigerung der UV-Undurchlässigkeit auf ihrer Vorder- und/ oder Rückseite eine Beschichtung auf Basis einer UV-Absorber enthaltenden Zusammensetzung aufweist; das Foliensubstrat 3 weist in einem Teilbereich ein transparentes (Volumen-)Hologramm 7 auf;
• eine gedruckte thermochrome Schicht 2, insbesondere ein Siebdruck auf Basis verkapselter Flüssigkristalle;
• einen Heißsiegelkleber 6.

Separately, a laminating film is produced comprising

• a transparent film substrate 3 which is substantially impermeable to UV radiation; in the example, a PET film is used which has a coating based on a composition containing UV absorbers to increase the UV impermeability on its front and / or back; the film substrate 3 has a transparent (volume) hologram 7 in a partial region;
• a printed thermochromic layer 2, in particular a screen printing based on encapsulated liquid crystals;
• a heat seal adhesive 6.

The in the FIG. 3 shown laminating film is applied in a subsequent step by means of pressure and elevated temperature to the black print layer 5a, 5b containing paper substrate 1. In this way, by means of the transparent hologram 7 and the thermochromic ink layer 2, an attractive thermochromic hologram can be obtained.

FIG. 4 shows a valuable document substrate according to the invention. The substrate used is a polymer substrate 8 with opaque regions 8a and a transparent region 8b. As a polymer substrate, a 90 micron thick BOPP film is used, which has a coating on the basis of a UV absorber-containing composition to increase the UV-opacity especially in the transparent area 8b on its front and / or back (in the figure is the before UV protective coating not shown). At the same time, the UV-absorbing coating can also serve as a primer for the ink acceptance or adhesion of one or more further print layers. Alternatively or additionally, the polymer substrate may also contain UV absorbers extruded into the polymer. The polymer substrate 8 is provided with a black leuco dye-based thermochromic coating. As a protection against UV radiation is a film 10, which has a (volume) hologram. The metallization of the hologram is impermeable to UV radiation.

FIG. 5 shows a valuable document substrate according to the invention. The substrate used is a paper substrate 8 with opaque paper regions 8a and an opening or recess 8b. The opening 8b forms a Window area. Within the aperture is a black ink layer 11. The window portion of the paper substrate 8 is covered from both sides by a film 12,17. The film 12 and the film 17 each have a coating based on a UV absorber-containing composition (reference Nos. 13 and 18). The film 12 is additionally provided with a transparent or translucent optically variable layer 14. The layer 14 is in particular a crosslinked liquid crystal layer with a color shift effect. Between the window region of the paper substrate 8 and the further film 17 are a thermochromic ink-based coating 15 and a black ink layer 16. The coating 15 is based in particular on (encapsulated) liquid crystals.

Claims (11)

A value-document substrate for producing value documents, in particular banknotes, having a first side and an opposing second side, wherein the first side of the value-document substrate protects, in one subarea, a UV-sensitive security feature and a UV-sensitive security feature; has transparent, substantially impermeable to UV radiation film, wherein the document of value substrate is substantially impermeable to UV radiation at least in the partial area of the UV radiation sensitive security feature. The valuable document substrate according to claim 1, wherein the UV-sensitive security feature is protective, transparent, substantially impermeable to UV radiation film based on a UV absorber having polymer substrate. The document of value according to claim 1 or 2, wherein the document of value substrate is a paper substrate, preferably a paper substrate, which has a black color layer at least in the partial area of the UV-sensitive security feature. The document of value according to claim 1 or 2, wherein the document of value substrate is a polymer substrate which has UV absorbers at least in the partial area of the UV-sensitive security feature, preferably a polymer substrate which is at least in the partial area of UV radiation. radiation
sensitive security feature has a black, UV absorber-containing ink layer. The valuable document substrate according to claim 4, wherein the substrate substrate forming the value-document substrate is selected from the following alternatives: a) a polymer substrate having a covering ink-receiving layer which contains a UV absorber, in particular TiO ₂ ; b) a polymer substrate which contains on the surface and / or within the polymer backbone UV absorber. A valuable document substrate according to any one of claims 1 to 5, wherein the UV sensitive security feature is selected from the following alternatives: a) a security feature based on a thermochromic ink, wherein the thermochromic ink is preferably based on liquid-crystalline material, more preferably microcapsules containing liquid crystalline material; b) an organic luminescent-based security feature; c) photochromic material. Value-added substrate according to one of claims 1 to 6, wherein between the UV-sensitive security feature and the protective film, a transparent or translucent optically variable layer is arranged, in particular from the group consisting of a liquid crystal layer with color shift effect, a hologram layer and an effect pigment layer is selected. Value-added substrate according to one of claims 3 or 4, or one of the dependent claims 5 to 8 on claim 3 or 4, wherein a portion of the black color layer based on a black leucoodye. Document of value according to one of claims 1 to 8, wherein the document of value substrate is transparent at least in the partial area in which the UV-sensitive security feature is arranged. Laminating film for the production of the valuable document substrate according to one of claims 1 to 9, comprising a transparent film substantially impermeable to UV radiation; optionally a transparent or translucent optically variable layer, which is selected in particular from the group consisting of a liquid crystal layer with a color shift effect, a hologram layer and an effect pigment layer; a UV sensitive sensitive security feature; an adhesive layer for applying the laminating film to a value-document substrate. Value document, in particular a banknote, comprising a value-document substrate according to one of claims 1 to 9.

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