EP3374197B1 - Security element, method for producing same, and data carrier equipped with the security element - Google Patents

Description

The invention relates to a security element, a method for producing the same and a data carrier equipped with the security element, e.g. a document of value such as a bank note.

Data carriers, such as value or ID documents, or other valuables, such as branded items, are often provided with security elements for protection, which allow the authenticity of the data carrier to be checked and which also serve as protection against unauthorized reproduction.

In this context, (see-through) security elements with multilayer thin-layer elements are known which appear in a first color when viewed in reflected light, ie in reflection, and in a second color when viewed in transmitted light, ie in transmission. the WO 2011/082761 A1 describes a thin film element with a multilayer structure which appears gold when viewed in reflected light and blue when viewed in transmitted light. The multilayer structure is based on two semi-transparent mirror layers and a dielectric spacer layer arranged between the two mirror layers.

the EP 1504 923 A2 describes a document of value with a thin-layer, optically variable security device. The security device is obtained by changing an exposed reflective layer so that the security device has an image, a pattern or text.

the WO 03/070482 A1 describes a security document with a substrate and a multi-layer security element which is connected to the substrate in such a way that it is accessible from at least one of the two substrate surfaces is visually recognizable from , wherein the security element comprises an interference element that produces a color shift effect and a layer with diffraction structures that at least partially overlaps with the interference element, or the security element comprises a multilayer interference element that produces a color shift effect and has gaps in at least one layer.

the DE 10 2008 031325 A1 describes a security element for protecting valuables with an optically variable layer, which conveys different color impressions from different viewing angles, and a color layer arranged in an overlapping area over the optically variable layer, the color impression of the optically variable layer in an area not covered by the color layer Viewing is adapted from a predetermined viewing angle to the color impression of the color layer in the overlapping area and a metal layer is arranged between the color layer and the optically variable layer.

the WO 2011/064162 A1 describes a security or decorative element comprising a substrate that may contain indicia or other visible features in or on its surface, an optically variable image on a discrete portion of the substrate, and a coating on at least a portion of the optically variable image, the coating includes platelet-shaped transition metal particles with a longest edge length dimension of 14nm to 1000nm and a thickness of 2nm to 100nm.

Proceeding from this, the invention is based on the object of specifying a security element of the type mentioned at the outset with a high degree of protection against counterfeiting and an attractive visual appearance, as well as a production method for this.

This object is achieved by the combinations of features defined in the independent claims. Developments of the invention are the subject matter of the dependent claims.

Summary of the Invention

1. 1. (First aspect of the invention) Security element for protecting documents of value, comprising a transparent carrier substrate and a first semitransparent functional layer which, on the one hand, has different shades when viewed in incident light and, on the other hand, when viewed in transmitted light, and a multilayer structure with a first semitransparent metallic layer layer, a second semitransparent metallic layer and a dielectric layer arranged between the first and the second semitransparent metallic layer, the second semitransparent metallic layer being present at least partially in a greater layer thickness than that of the first semitransparent metallic layer, the second semitransparent metallic layer defines the front side of the semi-transparent functional layer and the first semi-transparent metallic layer defines the back side of the semi-transparent functional layer and d he semi-transparent functional layer
   • has a first visually recognizable color when the back is viewed in reflected light;
   • has a second visually recognizable color when viewing the front side in reflected light at the point where the second semitransparent metallic layer is in a greater layer thickness than the first semitransparent metallic layer and otherwise has the first visually recognizable color;
   • has a third, visually recognizable color when both the front is viewed in transmitted light and the back is viewed in transmitted light. The layer thickness of the second semi-transparent metallic layer is preferred Layer at least partially 1.25 to 3 times, particularly preferably 1.5 to 2 times as high as the layer thickness of the first semitransparent metallic layer.
2. 2. (Preferred embodiment) Security element according to claim 2 or 3.
3. 3. (Preferred embodiment) Security element according to one of claims 4 to 7.
4. 4. (Preferred embodiment) Security element according to one of claims 8 to 10.
5. 5. (Preferred embodiment) Security element according to one of claims 11 to 15.
6. 6. (Second aspect of the invention) Data carrier with a security element according to claim 16.
7. 7. (Preferred embodiment) Data carrier according to claim 17 or 18.
8. 8. (Third aspect of the invention) Method for producing a security element for securing documents of value according to claim 19. The layer thickness of the second semitransparent metallic layer is preferably at least partially 1.25 to 3 times, particularly preferably 1.5 to 2 times as high as the layer thickness of the first semitransparent metallic layer.

Detailed Description of the Invention

The document of value referred to in the present description can be a banknote, in particular a paper banknote, a polymer banknote or a film composite banknote, a share, a bond, a certificate, a voucher, a check, a high-value admission ticket, but also an identification card, such as a credit card, a bank card, a cash payment card, an authorization card, an ID card or a passport personalization page.

In terms of this invention, viewing in incident light is illumination of the security element from one side and viewing of the security element from the same side, preferably at a viewing angle of the security element of approximately 90°. Observation in reflected light is therefore present, for example, when the front side of the security element is illuminated and also viewed.

A viewing angle-dependent color impression in reflected light means that viewing the security element in reflected light at a viewing angle of approx. 90° leads to a specific optically perceptible color and at a viewing angle of approx. 20° to 40° leads to another optically perceptible color.

In terms of this invention, viewing in transmitted light is illumination of a security element from one side and viewing of the security element from another side, in particular the opposite side. An observation in transmitted light is therefore present, for example, when the rear side of the security element is illuminated and the front side of the security element is viewed. The light thus shines through the security element.

The security element according to the invention can be present, for example, as a patch or label, as a (continuous) strip or as a (continuous) thread.

The data carrier substrate of the data carrier to be equipped with the security element according to the invention is in particular a paper substrate or a Paper-like substrate, a polymeric substrate, a paper/foil/paper composite substrate, or a foil/paper/foil composite substrate. A document of value or security paper provided with a window area can be produced in the case of a paper substrate, a paper/foil/paper composite substrate or a foil/paper/foil composite substrate, for example by means of a continuous recess within the paper layer(s). Alternatively, the paper layer can be made transparent in a certain area by means of a suitable liquid, for example by means of an aqueous sulfuric acid solution. In the case of a document of value based on a transparent polymer substrate, a window area can be produced, for example, by means of congruent gaps in the opaque printed layers applied to the front and back of the polymer substrate.

The semi-transparent functional layer has different shades of color when viewed in incident light on the one hand and when viewed in transmitted light on the other. The two different hues are, for example, complementary colors. Such a semitransparent functional layer is based, for example, on a multilayer structure with two semitransparent metallic layers and a dielectric layer arranged between the two semitransparent metallic layers. Such a multilayer structure, which appears gold when viewed in reflected light and shows a blue hue when viewed in transmitted light, is, for example, from WO 2011/082761 A1 famous.

The following description refers in particular to the variant according to which the two semi-transparent metallic layers are each based on the same metal.

• die beiden semitransparenten metallischen Schichten werden bevorzugt von A1 oder Ag gewählt; die dielektrische Schicht ist insbesondere eine SiO₂-Schicht;
• im Falle, dass jede der beiden semitransparenten metallischen Schichten auf Al beruht, liegt die jeweilige bevorzugte Schichtdicke in einem Bereich von 5 nm bis 20 nm, insbesondere bevorzugt in einem Bereich von 10 nm bis 14 nm; die dielektrische SiO_2-Schicht hat vorzugsweise eine Schichtdicke in einem Bereich von 50 nm bis 450 nm, weiter bevorzugt in einem Bereich von 80 nm bis 260 nm und insbesondere bevorzugt in einem Bereich von 210 nm bis 260 nm, wobei die Bereiche von 80 nm bis 100 nm und von 210 nm bis 240 nm speziell für die Bereitstellung eines Gold/Blau-Farbwechsels besonders bevorzugt werden;
• im Falle, dass jede der beiden semitransparenten metallischen Schichten auf Ag beruht, liegt die jeweilige bevorzugte Schichtdicke in einem Bereich von 15 nm bis 25 nm; die dielektrische SiO_2-Schicht hat vorzugsweise eine Schichtdicke in einem Bereich von 50 nm bis 450 nm, weiter bevorzugt in einem Bereich von 80 nm bis 260 nm und insbesondere bevorzugt in einem Bereich von 210 nm bis 260 nm, wobei die Bereiche von 80 nm bis 100 nm und von 210 nm bis 240 nm speziell für die Bereitstellung eines Gold/Blau-Farbwechsels besonders bevorzugt werden.

Suitable multilayer constructions with two semi-transparent metallic layers and a dielectric layer arranged between the two semi-transparent metallic layers typically have the following physical properties:

• the two semi-transparent metallic layers are preferably chosen from A1 or Ag; the dielectric layer is in particular an SiO ₂ layer;
• in the event that each of the two semi-transparent metallic layers is based on Al, the respective preferred layer thickness is in a range from 5 nm to 20 nm, particularly preferably in a range from 10 nm to 14 nm; the dielectric SiO ₂ layer preferably has a layer thickness in a range from 50 nm to 450 nm, more preferably in a range from 80 nm to 260 nm and particularly preferably in a range from 210 nm to 260 nm, the ranges from 80 nm to 100 nm and from 210 nm to 240 nm are especially preferred for providing a gold/blue color change;
• in the event that each of the two semi-transparent metallic layers is based on Ag, the respective preferred layer thickness is in a range from 15 nm to 25 nm; the dielectric SiO ₂ layer preferably has a layer thickness in a range from 50 nm to 450 nm, more preferably in a range from 80 nm to 260 nm and particularly preferably in a range from 210 nm to 260 nm, the ranges from 80 nm to 100 nm and from 210 nm to 240 nm are particularly preferred especially for providing a gold/blue color change.

• im Auflicht Magenta, im Durchlicht Blau-Grün;
• im Auflicht Türkis, im Durchlicht Orange-Gelb;
• im Auflicht Gold, im Durchlicht Blau-Violett;
• im Auflicht Silber, im Durchlicht Violett.

The multi-layered layer structures mentioned above not only enable the production of a semi-transparent functional layer, which appears gold-colored when viewed in reflected light and shows a blue hue when viewed in transmitted light, but depending on the choice of layer thickness, in particular the dielectric layer, further color changes can be generated, e.g

• magenta in reflected light, blue-green in transmitted light;
• turquoise in incident light, orange-yellow in transmitted light;
• reflected light gold, transmitted light blue-violet;
• reflected light silver, transmitted light violet.

The security element according to the invention has a first semi-transparent functional layer with a multi-layer structure with a first semi-transparent metallic layer, a second semi-transparent metallic layer and a dielectric layer arranged between the first and the second semi-transparent metallic layer, the semi-transparent functional layer being such that the second Semitransparent metallic layer is at least partially present in a greater layer thickness than the first semitransparent metallic layer. It is preferable that the layer thickness of the second semitransparent metallic layer is 1.5 to 2 times the layer thickness of the first semitransparent metallic layer. In this way it can be ensured that the viewer, when viewing the front side in incident light, immediately perceives a second visually recognizable color at the point where the second semitransparent metallic layer is thicker than the first semitransparent metallic layer and otherwise the perceives the first visually recognizable color.

According to a preferred variant, the security element according to the invention is such that, in addition to the first semitransparent functional layer, the transparent carrier substrate also has a second semitransparent functional layer that can be obtained by printing using an effect pigment composition, the second semitransparent functional layer when viewed in incident light, both from the back , as well as from the front, appears in the first visually recognizable color and when viewed in transmitted light, from both the back and from the front, appears in the third visually recognizable color.

Print layers based on an effect pigment composition which, when viewed in incident light, shows a different color than when viewed in transmitted light, in particular a gold/blue color change, a gold/violet color change, a green-gold/magenta color change, a Violet / green color change or a silver / opaque color change, for example, in the WO 2011/064162 A2 described. The pigments preferably have a longest dimension of edge length from end-to-end in a range of 15 nm to 1000 nm and are based on a transition metal selected from the group consisting of Cu, Ag, Au, Zn, Cd, Ti, Cr, Mn, Fe, Co, Ni, Ru, Rh, Pd, Os, Ir and Pt is selected. The transition metal is preferably Ag. The aspect ratio (i.e. the ratio of the longest end-to-end dimension to the thickness) is preferably at least 1.5, more preferably in a range from 1.5 to 300. The ratio of binder to metal pigment is preferably below 10: 1, especially below 5:1. Depending on the choice of the aspect ratio of the pigment, its longest end-to-end dimension and the adjustment of the pigment/binder ratio, the color when viewing the print layer in transmission and the color when viewed in reflection can be adjusted (e.g. blue in transmission and silver, gold, bronze, copper or violet in reflection; also violet, magenta, pink, green or brown in transmission and various colors in reflection depending on the choice of pigment/binder ratio). Colors with a gold/blue color change between reflection and transmission (in other words, between reflected light and transmitted light observation) are, for example, in Examples 1, 2 and 3 in Table 1 of WO 2011/064162 A2 called. Furthermore, example 4 shows a gold/violet color change color, example 5 a green-gold/magenta color change color, example 7 a violet/green color change color and example 8 a silver/opaque color change color.

1. a) transparentes Trägersubstrat, z.B. Polyethylenterephthalat(PET)-Folie;
2. b) gegebenenfalls eine Prägelackschicht, die insbesondere eine diffraktive Struktur bildende Reliefstruktur und/oder eine Mikrospiegelanordnung bildende Reliefstruktur aufweist;
3. c) eine erste semitransparente metallischen Schicht, z.B. Aluminium;
4. d) eine dielektrischen Schicht, z.B. SiO₂;
5. e) eine zweite semitransparente metallische Schicht, z.B. Aluminium, die mindestens teilweise in einer größeren Schichtdicke als die der ersten semitransparenten metallischen Schicht vorliegt.
6. f) gegebenenfalls eine Klebschicht, z.B. eine Heißsiegelbeschichtung, die für das Verkleben des Sicherheitselements mit einem Datenträger, z.B. einem Wertdokument, geeignet ist.

According to an advantageous variant (A), the security element according to the invention has the following layer sequence:

1. a) transparent carrier substrate, for example polyethylene terephthalate (PET) film;
2. b) optionally an embossing lacquer layer which has in particular a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement;
3. c) a first semi-transparent metallic layer, eg aluminum;
4. d) a dielectric layer, eg SiO ₂ ;
5. e) a second semi-transparent metallic layer, for example aluminum, which is at least partially present in a greater layer thickness than that of the first semi-transparent metallic layer.
6. f) optionally an adhesive layer, eg a heat-seal coating, which is suitable for gluing the security element to a data carrier, eg a document of value.

• A) transparentes Trägersubstrat, z.B. Polyethylenterephthalat(PET)-Folie;
• B) gegebenenfalls eine Prägelackschicht, die insbesondere eine diffraktive Struktur bildende Reliefstruktur und/oder eine Mikrospiegelanordnung bildende Reliefstruktur aufweist;
• sowohl C1) eine erste semitransparente Funktionsschicht, als auch C2) eine zweite semitransparente Funktionsschicht in Nebeneinanderstellung, d.h. die erste und die zweite semitransparente Funktionsschicht können insbesondere in Angrenzung zueinander oder voneinander beabstandet angeordnet sein, wobei
  • die erste semitransparente Funktionsschicht die folgenden Schichten aufweist:
• C1a) eine erste semitransparente metallische Schicht, z.B. Aluminium;
• C1b) eine dielektrischen Schicht, z.B. SiO₂;
• C1c) eine zweite semitransparente metallische Schicht, z.B. Aluminium, die in einer größeren Schichtdicke als die der ersten semitransparenten metallischen Schicht vorliegt; und
  • die zweite semitransparente Funktionsschicht C2) drucktechnisch mittels der oben beschriebenen, aus der WO 2011/064162 A2 bekannten Effektpigment-Zusammensetzung erhältlich ist;
• D) gegebenenfalls eine Klebschicht, z.B. eine Heißsiegelbeschichtung, die für das Verkleben des Sicherheitselements mit einem Datenträger, z.B. einem Wertdokument, geeignet ist.

According to a further advantageous variant (B), the security element according to the invention has the following layer sequence:

• A) transparent carrier substrate, eg polyethylene terephthalate (PET) film;
• B) optionally an embossing lacquer layer which has in particular a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement;
• both C1) a first semitransparent functional layer and C2) a second semitransparent functional layer in juxtaposition, ie the first and the second semitransparent functional layer can in particular be arranged adjacent to one another or at a distance from one another, wherein
  • the first semi-transparent functional layer has the following layers:
• C1a) a first semi-transparent metallic layer, eg aluminum;
• C1b) a dielectric layer, eg SiO ₂ ;
• C1c) a second semitransparent metallic layer, for example aluminum, which is present in a greater layer thickness than that of the first semitransparent metallic layer; and
  • the second semi-transparent functional layer C2) typographically by means of the above, from the WO 2011/064162 A2 known effect pigment composition is available;
• D) optionally an adhesive layer, eg a heat-seal coating, which is suitable for gluing the security element to a data carrier, eg a document of value.

The first semi-transparent functional layer mentioned in the above variants can alternatively be an Ag/SiO ₂ /Ag structure instead of an Al/SiO ₂ /Al structure.

In addition, the order of the layers can be changed. For example, the semi-transparent metallic layer with a high layer thickness can first be arranged on the carrier substrate, followed by the dielectric layer and finally the further metallic layer with a thin layer thickness.

The following description relates in particular to the variant according to which the two semi-transparent metallic layers are based on different metals.

• die eine semitransparente metallische Schicht, die bezogen auf die weitere semitransparente metallische Schicht eine höhere Schichtdicke aufweist, wird bevorzugt von A1 oder Ag gewählt, insbesondere bevorzugt wird eine Al-Schicht; die dielektrische Schicht ist insbesondere eine SiO_2-Schicht;
• die weitere semitransparente metallische Schicht ist vorzugsweise eine Cr-Schicht;
• im Falle, dass die eine semitransparente metallische Schicht auf Al beruht, liegt die bevorzugte Schichtdicke in einem Bereich von 5 nm bis 15 nm; die dielektrische SiO_2-Schicht hat vorzugsweise eine Schichtdicke in einem Bereich von 50 nm bis 700 nm; die Cr-Schicht hat eine bevorzugte Schichtdicke in einem Bereich von 3 nm bis 7 nm, insbesondere bevorzugt eine Schichtdicke von ca. 5 nm.

Suitable multilayer constructions with two semi-transparent metallic layers and a dielectric layer arranged between the two semi-transparent metallic layers typically have the following physical properties:

• the one semitransparent metallic layer which has a greater layer thickness in relation to the further semitransparent metallic layer is preferably selected from A1 or Ag, one being particularly preferred Al layer; the dielectric layer is in particular an SiO ₂ layer;
• the further semi-transparent metallic layer is preferably a Cr layer;
• in the event that one semi-transparent metallic layer is based on Al, the preferred layer thickness is in a range from 5 nm to 15 nm; the dielectric SiO ₂ layer preferably has a layer thickness in a range from 50 nm to 700 nm; the Cr layer has a preferred layer thickness in a range from 3 nm to 7 nm, particularly preferably a layer thickness of approx. 5 nm.

Due to the fact that the two semi-transparent metallic layers are based on different metals, preferably Al and Cr, the layer structure shows on the one hand when viewing the front side in incident light (i.e. 90°) and on the other hand when viewing the rear side in incident light (i.e. 90°). different colors on. In addition, the layer structure has another color when viewed in transmitted light. In addition, when viewing the front and/or the back in reflected light, the layer structure shows a color impression that is dependent on the viewing angle.

• Seite 1 im Auflicht bei einem Betrachtungswinkel von etwa 90°: Blau;
• Seite 1 im Auflicht bei einem Betrachtungswinkel von etwa 20° bis 40°: RotBraun;
• Seite 2 im Auflicht: Gold (unabhängig vom Betrachtungswinkel);
• Seite 1 und Seite 2 bei der Betrachtung im Durchlicht: Lila.

A three-layer structure Al (approx. 12 nm) / SiO ₂ (approx. 220 nm) / Cr (approx. 5 nm), for example, leads to the following color impressions:

• Side 1 in reflected light at a viewing angle of about 90°: blue;
• Side 1 in reflected light at a viewing angle of about 20° to 40°: red-brown;
• side 2 in reflected light: gold (regardless of the viewing angle);
• Side 1 and side 2 when viewed in transmitted light: Purple.

• Seite 1 im Auflicht bei einem Betrachtungswinkel von etwa 90°: Grün;
• Seite 1 im Auflicht bei einem Betrachtungswinkel von etwa 20° bis 40°: Blau-Violett;
• Seite 2 im Auflicht bei einem Betrachtungswinkel von 90°: Magenta;
• Seite 2 im Auflicht bei einem Betrachtungswinkel von etwa 20° bis 40°: Gold;
• Seite 1 und Seite 2 bei der Betrachtung im Durchlicht: Grün.

By varying the layer thickness of the dielectric layer, the color impressions can be easily changed, e.g.:

• Side 1 in reflected light at a viewing angle of about 90°: green;
• Side 1 in reflected light at a viewing angle of about 20° to 40°: blue-violet;
• Page 2 in reflected light at a viewing angle of 90°: magenta;
• Side 2 in reflected light at a viewing angle of about 20° to 40°: gold;
• Side 1 and side 2 when viewed in transmitted light: Green.

1. a) transparentes Trägersubstrat, z.B. Polyethylenterephthalat(PET)-Folie;
2. b) gegebenenfalls eine Prägelackschicht, die insbesondere eine diffraktive Struktur bildende Reliefstruktur und/oder eine Mikrospiegelanordnung bildende Reliefstruktur aufweist;
3. c) eine semitransparente metallische Schicht, z.B. Aluminium oder Silber, bevorzugt Aluminium, die bezogen auf die weitere semitransparente metallische Schicht eine größere Schichtdicke aufweist;
4. d) eine dielektrischen Schicht, z.B. SiO₂;
5. e) eine weitere semitransparente metallische Schicht, z.B. Cr;
6. f) gegebenenfalls eine Klebschicht, z.B. eine Heißsiegelbeschichtung, die für das Verkleben des Sicherheitselements mit einem Datenträger, z.B. einem Wertdokument, geeignet ist.

According to an advantageous variant, the above security element has the following layer sequence:

1. a) transparent carrier substrate, for example polyethylene terephthalate (PET) film;
2. b) optionally an embossing lacquer layer which has in particular a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement;
3. c) a semitransparent metallic layer, for example aluminum or silver, preferably aluminum, which has a greater layer thickness in relation to the further semitransparent metallic layer;
4. d) a dielectric layer, eg SiO ₂ ;
5. e) another semi-transparent metallic layer, eg Cr;
6. f) optionally an adhesive layer, eg a heat-seal coating, which is suitable for gluing the security element to a data carrier, eg a document of value.

As an alternative to the above layer structure, the layer sequence can also be a, b, e, d, c, f, i.e. the Al layer (or Ag layer) and the Cr layer are in interchanged form.

Further exemplary embodiments and advantages of the invention are explained below with reference to the figures, which are not shown to scale and proportions in order to improve clarity.

Figur 1

ein erfindungsgemäßes Sicherheitselement;

Figur 2

ein weiteres erfindungsgemäßes Sicherheitselement;

Figur 3

noch ein weiteres erfindungsgemäßes Sicherheitselement.

Show it:

figure 1

a security element according to the invention;

figure 2

another security element according to the invention;

figure 3

yet another security element according to the invention.

1. a) ein Trägersubstrat 7, z.B. eine PET(Polyethylenterephthalat)-Folie;
2. b) eine Aluminium-Metallisierung 6 mit vergleichsweise geringer Schichtdicke, z.B. 5 bis 15 Nanometer;
3. c) eine SiO_2-Schicht 5 mit einer Schichtdicke z.B. von 210 bis 240 Nanometer;
4. d) eine Aluminium-Metallisierung 4 mit vergleichsweise hoher Schichtdicke, z.B. 15 bis 30 Nanometer;
5. e) eine Klebschicht 3, z.B. eine Heißsiegelbeschichtung.

1 shows a value document, namely a banknote, with a window area and a security element according to the invention applied to the value document substrate in the window area. The window area of the document of value is formed by a recess 2 in the paper layer 1 produced, for example, by means of punching. The security element has the following layers:

1. a) a carrier substrate 7, for example a PET (polyethylene terephthalate) film;
2. b) an aluminum metallization 6 with a comparatively small layer thickness, for example 5 to 15 nanometers;
3. c) an SiO ₂ layer 5 with a layer thickness of, for example, 210 to 240 nanometers;
4. d) an aluminum metallization 4 with a comparatively high layer thickness, for example 15 to 30 nanometers;
5. e) an adhesive layer 3, eg a heat seal coating.

The aluminum metallization 4 with a comparatively high layer thickness represents the front of the layers 4, 5, and 6 comprising the semi-transparent functional layer. The aluminum metallization 6 with a comparatively small layer thickness represents the back of the layers 4, 5, and 6 comprising the semi-transparent functional layer.

The block arrow 8 shows the front side of the security element being viewed. The observer perceives the security element in silver color when viewing the front side of the security element in reflected light.

The block arrow 9 shows the rear side of the security element. The observer perceives the security element in reflected light when looking at the back of the security element in a golden color.

When viewed in transmitted light, the security element appears in the color blue, both from the front and from the back.

That in the figure 1 The security element shown comprising the layers 3 to 7 can additionally have an embossing lacquer layer, eg a UV lacquer, between the aluminum metallization 6 and the carrier substrate 7, which in particular contains a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement.

1. a) ein Trägersubstrat 10, z.B. eine PET(Polyethylenterephthalat)-Folie;
2. b) eine Aluminium-Metallisierung 11 mit einer Schichtdicke z.B. von 5 bis 15 Nanometer;
3. c) eine SiO_2-Schicht 12 mit einer Schichtdicke z.B. von 210 bis 240 Nanometer;
4. d) eine Aluminium-Metallisierung 13 mit der gleichen Schichtdicke wie die Aluminium-Metallisierung 11;
5. e) eine weitere Aluminium-Metallisierung 14 mit einer Schichtdicke z.B. von 5 bis 15 Nanometer.

figure 2 shows a security element according to the invention according to a further embodiment. The security element has the following layers:

1. a) a carrier substrate 10, eg a PET (polyethylene terephthalate) film;
2. b) an aluminum metallization 11 with a layer thickness of, for example, 5 to 15 nanometers;
3. c) an SiO ₂ layer 12 with a layer thickness of, for example, 210 to 240 nanometers;
4. d) an aluminum metallization 13 with the same layer thickness as the aluminum metallization 11;
5. e) another aluminum metallization 14 with a layer thickness of, for example, 5 to 15 nanometers.

The aluminum metallizations 13 and 14, which together form a metallization with a comparatively high layer thickness, represent the front side of the layers 11, 12, 13 and 14, the semi-transparent functional layer. The aluminum metallization 11 represents the back of the layers 11, 12, 13 and 14 comprising the semi-transparent functional layer.

The block arrows 15 and 16 show the view of the front side of the security element. When viewing the front side of the security element in incident light, the observer perceives the security element in silver color at the location of the block arrow 15 . Furthermore, the observer perceives the security element in incident light at the location of the block arrow 16 in golden color when viewing the front side of the security element.

Block arrows 17 and 18 show the rear side of the security element being viewed. When looking at the back of the security element in reflected light, the observer perceives the security element in golden color both at the location of the block arrow 17 and at the location of the block arrow 18 .

When viewed in transmitted light, both from the front and from the back, the security element appears in the color blue, namely at all points of the block arrows 15, 16, 17 and 18.

Above the aluminum metallizations 13 and 14, the security element can have an adhesive layer, in particular a hot-seal coating, for gluing the security element to a value-document substrate.

Furthermore, this can be done in the figure 2 shown, the layers 10 to 14 comprehensive security element additionally have between the aluminum metallization 11 and the carrier substrate 10 an embossing lacquer layer, eg a UV lacquer, which in particular contains a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement.

• A) ein transparentes Trägersubstrat 19, z.B. eine Polyethylenterephthalat(PET)-Folie;
• sowohl B1) eine die Schichten 20, 21 und 22 umfassende erste semitransparente Funktionsschicht, als auch B2) eine die Schicht 23 umfassende zweite semitransparente Funktionsschicht in Nebeneinanderstellung, d.h. im vorliegenden Fall in Angrenzung zueinander angeordnet sein, wobei
  • die erste semitransparente Funktionsschicht die folgenden Schichten aufweist:
• B1a) eine vergleichsweise dünne Aluminium-Metallisierung 20 mit einer Schichtdicke z.B. von 5 bis 15 Nanometer;
• B1b) eine SiO_2-Schicht 21 mit einer Schichtdicke z.B. von 210 bis 240 Nanometer;
• B1c) eine vergleichsweise dicke Aluminium-Metallisierung 22 mit einer Schichtdicke z.B. von 15 bis 30 Nanometer; und
  • die zweite semitransparente Funktionsschicht B2) drucktechnisch mittels der oben beschriebenen, aus der WO 2011/064162 A2 bekannten Effektpigment-Zusammensetzung erhältlich ist und im Auflicht Gold und im Durchlicht Blau erscheint.

figure 3 shows a security element according to the invention according to a further embodiment, which has the following layer sequence:

• A) a transparent carrier substrate 19, eg a polyethylene terephthalate (PET) film;
• both B1) a first semitransparent functional layer comprising layers 20, 21 and 22, and B2) a second semitransparent functional layer comprising layer 23 in juxtaposition, ie in the present case adjacent to one another, wherein
  • the first semi-transparent functional layer has the following layers:
• B1a) a comparatively thin aluminum metallization 20 with a layer thickness of, for example, 5 to 15 nanometers;
• B1b) an SiO ₂ layer 21 with a layer thickness of, for example, 210 to 240 nanometers;
• B1c) a comparatively thick aluminum metallization 22 with a layer thickness of, for example, 15 to 30 nanometers; and
  • the second semi-transparent functional layer B2) typographically by means of the above, from the WO 2011/064162 A2 known effect pigment composition and appears gold in reflected light and blue in transmitted light.

The aluminum metallization 22 represents the front of the security element. The aluminum metallization 20 represents the back of the security element.

The block arrows 24 and 25 show the view of the front side of the security element. When viewing the front side of the security element in incident light, the observer perceives the security element in silver color at the location of the block arrow 24 . Furthermore, when viewing the front side of the security element in reflected light, the observer perceives the security element in golden color at the location of the block arrow 25 .

The block arrows 26 and 27 show the view of the back of the security element. When looking at the back of the security element in incident light, the observer perceives the security element in golden color both at the location of the block arrow 26 and at the location of the block arrow 27 .

Above the aluminum metallization 22 and the effect pigment layer 23, the security element can have an adhesive layer, in particular a heat-seal coating, for gluing the security element to a value-document substrate.

Furthermore, this can be done in the figure 3 security element shown additionally have an embossing lacquer layer, e.g. a UV lacquer, between the aluminum metallization 20 and/or the effect pigment layer 23 on the one hand, and the carrier substrate 19 on the other hand, which in particular contains a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement.

In the above embodiments, aluminum was chosen to produce the semi-transparent metallic layer. For example, silver could be used instead of aluminum.

Claims (20)

1. A security element for safeguarding value documents, comprising a transparent carrier substrate (7; 10; 19) and a first semitransparent functional layer which, upon viewing in incident light on the one hand and upon viewing in transmitted light on the other hand, has different color tones, and has a multilayer structure with a first semitransparent metallic layer (6; 11; 20), a second semitransparent metallic layer (4; 13, 14; 22) and a dielectric layer (5; 12; 21) arranged between the first and the second semitransparent metallic layer, wherein the second semitransparent metallic layer (4; 13, 14; 22) is present at least partly in a greater layer thickness than that of the first semitransparent metallic layer (6; 11; 20), characterized in that the second semitransparent metallic layer (4; 13, 14; 22) defines the front side of the semitransparent functional layer and the first semitransparent metallic layer defines the back side of the semitransparent functional layer, and the semitransparent functional layer

   - upon viewing the back side in incident light has a first visually recognizable color;

   - upon viewing the front side in incident light at the place where the second semitransparent metallic layer (4; 13, 14; 22) is present in a greater layer thickness than the first semitransparent metallic layer (6; 11; 20), has a second visually recognizable color and otherwise has the first visually recognizable color;

   - upon viewing the front side in transmitted light as well as the back side in transmitted light, has a third visually recognizable color.
2. The security element according to claim 1, wherein the first semitransparent metallic layer (6; 11; 20) and the second semitransparent metallic layer (4; 13, 14; 22) are both based on the same metal.
3. The security element according to claim 1 or 2, wherein the security element has the following layer structure in the order:

   - transparent carrier substrate (7; 10; 19);

   - first semitransparent metallic layer (6; 11; 20);

   - dielectric layer (5; 12; 21);

   - second semitransparent metallic layer (4; 13, 14; 22), which is present at least partly in a greater layer thickness than that of the first semitransparent metallic layer (6; 11; 20);

   or the security element has the following layer structure in the order:

   - transparent carrier substrate (7; 10; 19);

   - second semitransparent metallic layer (4; 13, 14; 22), which is present at least partly in a greater layer thickness than that of the first semitransparent metallic layer (6; 11; 20);

   - dielectric layer (5; 12; 21);

   - first semitransparent metallic layer (4; 13, 14; 22).
4. The security element according to any of claims 1 to 3, wherein both semitransparent metallic layers are chosen from Al or Ag and the dielectric layer (5; 12; 21) is a SiO₂ layer and the visually recognizable colors are preferably the following colors:

   - the first visually recognizable color is gold;

   - the second visually recognizable color is silver;

   - the third visually recognizable color is blue.
5. The security element according to any of claims 1 to 4, wherein the first semitransparent functional layer having a multilayer structure is constituted such that the first semitransparent metallic layer (6; 11; 20) and the dielectric layer respectively have a uniform layer thickness and the second semitransparent metallic layer (4; 13, 14; 22) in first regions has the same layer thickness as the first semitransparent metallic layer (6; 11; 20) and in second regions has a greater layer thickness than that of the first semitransparent metallic layer (6; 11; 20).
6. The security element according to claim 5, wherein the security element

   - upon viewing the back side in incident light appears gold-colored;

   - upon viewing the front side in incident light appears gold-colored in the first regions and silver in the second regions;

   - upon viewing the front side in transmitted light as well as the back side in transmitted light, appears bluish.
7. The security element according to any of claims 1 to 6, wherein the transparent carrier substrate (7; 10; 19) of the security element has, besides the first semitransparent functional layer, a second semitransparent functional layer (23) obtainable by printing technology by means of an effect pigment composition, wherein the second semitransparent functional layer (23), upon viewing in incident light, from the back side as well as from the front side, appears in the first visually recognizable color and, upon viewing in transmitted light, from the back side as well as from the front side, appears in the third visually recognizable color.
8. The security element according to claim 7, wherein the second semitransparent functional layer (23), upon viewing in incident light, from the back side as well as from the front side, appears gold-colored and, upon viewing in transmitted light, from the back side as well as from the front side, appears bluish.
9. The security element according to claim 1, wherein the metal of the first semitransparent metallic layer (6; 11; 20) and the metal of the second semitransparent metallic layer (4, 13; 14; 22) are different metals.
10. The security element according to claim 9, wherein the security element has the following layer structure in the order:

    - transparent carrier substrate (7; 10; 19);

    - first semitransparent metallic layer (6; 11; 20);

    - dielectric layer (5; 12; 21);

    - second semitransparent metallic layer (4; 13, 14; 22), which is present at least partly in a greater layer thickness than that of the first semitransparent metallic layer (6; 11; 20);

    or the security element has the following layer structure in the order:

    - transparent carrier substrate (7; 10; 19);

    - second semitransparent metallic layer (4; 13, 14; 22), which is present at least partly in a greater layer thickness than that of the first semitransparent metallic layer (6; 11; 20);

    - dielectric layer (5; 12; 21);

    - first semitransparent metallic layer (6; 11; 20).
11. The security element according to claim 9 or 10, wherein the second semitransparent metallic layer (4; 13, 14; 22) defines the front side of the semitransparent functional layer and the first semitransparent metallic layer (6; 11; 20) defines the back side of the semitransparent functional layer, and the semitransparent functional layer

    - upon viewing the back side in incident light has a first visually recognizable color;

    - upon viewing the front side in incident light has a second visually recognizable color;

    - upon viewing the front side in transmitted light as well as the back side in transmitted light, has a third visually recognizable color; and

    - upon viewing the back side and/or upon viewing the front side in incident light has a viewing angle-dependent color impression.
12. The security element according to claim 9, 10 or 11, wherein the one semitransparent metallic layer is chosen from Al or Ag, the further semitransparent metallic layer is a Cr layer and the dielectric layer a SiO₂ layer, wherein the layer thickness of the Al or Ag layer is at least partly 1.25 to 3 times, particularly preferably 1.5 to 2 times, as high as the layer thickness of the Cr layer.
13. The security element according to claim 12, wherein the one semitransparent metallic layer is an Al layer, the further semitransparent metallic layer a Cr layer and the dielectric layer a SiO₂ layer.
14. The security element according to any of claims 1 to 13, wherein the security element is an (endless) strip, an (endless) thread or a patch or label.
15. The security element (2) according to any of claims 1 to 14, wherein between the transparent carrier substrate (7; 10; 19) and the semitransparent functional layer an embossing lacquer layer is present, which has, in particular, a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement.
16. A data carrier with a security element according to any of claims 1 to 15.
17. The data carrier according to claim 16, wherein the data carrier is a value document, such as a banknote, in particular a paper banknote, a polymer banknote or a foil composite banknote, or an identification card.
18. The data carrier according to claim 16 or 17, wherein the security element is arranged above a window region (2) formed in the data carrier substrate (1).
19. A method for manufacturing a security element according to any of claims 1 to 15 for safeguarding value documents, comprising a transparent carrier substrate (7; 10; 19) and a first semitransparent functional layer which, upon viewing in incident light on the one hand and upon viewing in transmitted light on the other hand, has different color tones, and a multilayer structure with a first semitransparent metallic layer (6; 11; 20), a second semitransparent metallic layer (4; 13, 14; 22) and a dielectric layer (5; 12; 21) arranged between the first and the second semitransparent metallic layer, wherein the second semitransparent metallic layer (4; 13, 14; 22) is present at least partly in a greater layer thickness than that of the first semitransparent metallic layer (6; 11; 20), and wherein the second semitransparent metallic layer defines the front side of the semitransparent functional layer and the first semitransparent metallic layer defines the back side of the semitransparent functional layer, and the semitransparent functional layer

    - upon viewing the back side in incident light has a first visually recognizable color;

    - upon viewing the front side in incident light at the place where the second semitransparent metallic layer is present in a greater layer thickness than the first semitransparent metallic layer, has a second visually recognizable color and otherwise has the first visually recognizable color;

    - upon viewing the front side in transmitted light as well as the back side in transmitted light, has a third visually recognizable color,

    wherein the method comprises the following steps of:

    a) making available a transparent carrier substrate;

    c) applying over the full area a multilayer structure with a first semitransparent metallic layer (6; 11; 20), a second semitransparent metallic layer (4; 13, 14; 22) and a dielectric layer arranged between the first and the second semitransparent metallic layer;

    d) printing a soluble washing ink partly on the second semitransparent metallic layer (4; 13, 14; 22) applied last;

    e) applying over the full area a further, semitransparent metallization;

    f) washing off the washing ink together with the region produced above the washing ink of the semitransparent metallization applied in step e).
20. The method according to claim 19, wherein the method between step a) and step c) additionally comprises the following step b):
    b) supplying the transparent carrier substrate with an embossing lacquer layer which has in particular a relief structure forming a diffractive structure and/or a relief structure forming a micromirror arrangement.

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