DE102004017094A1 - Method for producing secure licence plate for vehicle with a macroscopic pattern pressed into the areas not covered by the number symbols - Google Patents

Abstract

A cost effective method for producing a secure licence plate for a vehicle has a base support layer onto which is applied a multi layer structure which includes the plate identity symbols. At least two layers comprise the multi layer structure and the plate is secured by pressing macroscopic patterns into the areas not covered by the symbols. The multi layer structure includes a reflective layer.

Description

The The invention relates to a method for producing a motor vehicle number plate with a carrier substrate, on the one transfer layer a transfer film is fixed, wherein the transfer layer of at least two different layers, as well as such Motor vehicle license plate.

The DE 43 27 995 C2 discloses such a method in which on a motor vehicle license plate, a variable marking, in particular a safety marking is applied. In this case, the surface of the substrate or motor vehicle license plate is partially coated with the decorative layer in a thermal printing process to form a marking using a thermal transfer film having a carrier film and a transfer layer or decorative layer. The decorative layer preferably consists of an adhesive layer for fixing the decorative layer on the motor vehicle license plate and a paint layer. The marking as well as the areas of the motor vehicle license plate which are free from the marking are then covered with a transparent protective lacquer layer.

The DE 42 20 344 C2 discloses a badge for affixing to automotive license plates, which has a removable protective paper and a transfer layer. The transfer layer in this case has a carrier layer which is provided with non-copyable guilloche lines, preferably in pastel shades.

moreover can the carrier layer a sublime stamp exhibit.

It Now is an object of the invention to provide a method for producing a To provide motor vehicle license plate with the in simpler Way an extra Individualization and increase anti-counterfeiting security, preferably directly in the registration office, is possible. Furthermore, a should Motor vehicle license plate can be provided, the one, preferably Additional customization that can be generated directly at the registration office to increase the forgery security having.

• a) zuerst die Übertragungslage fixiert wird und danach die makroskopische Struktur in die Übertragungslage abgeformt wird, oder
• b) zuerst die Übertragungslage fixiert wird und danach die makroskopische Struktur gleichzeitig in die Übertragungslage und Bereiche des Trägersubstrats abgeformt wird, die zumindest teilweise von der Übertragungslage bedeckt sind, oder
• c) zuerst die makroskopische Struktur in das Trägersubstrat abgeformt wird und danach die Übertragungslage zumindest teilweise überlappend mit der makroskopischen Struktur derart fixiert wird, dass die Übertragungslage dem Profil des Trägersubstrats folgt.

The object is achieved for the method by forming a macroscopic structure in a plane region of the carrier substrate which is free of identifying information such as letters, numbers or plaques and perpendicular to the plane of the carrier substrate by means of an embossing punch

• a) first the transfer layer is fixed and then the macroscopic structure is molded into the transfer layer, or
• b) first the transfer layer is fixed and then the macroscopic structure is simultaneously molded into the transfer layer and areas of the carrier substrate, which are at least partially covered by the transfer layer, or
• c) first the macroscopic structure is molded into the carrier substrate and then the transfer layer is fixed at least partially overlapping with the macroscopic structure such that the transfer layer follows the profile of the carrier substrate.

• a) die makroskopische Struktur in die Übertragungslage abgeformt ist, oder
• b) die makroskopische Struktur in der Übertragungslage und dem Trägersubstrat abgeformt ist, oder
• c) die makroskopische Struktur in das Trägersubstrat abgeformt und die Übertragungslage zumindest teilweise derart über der makroskopischen Struktur fixiert ist, dass die Übertragungslage dem Profil des Trägersubstrats folgt.

The object is achieved for the motor vehicle license plate according to the invention in that a macroscopic structure is formed in a flat, of indicative information such as letters, numbers or plaques free area of the carrier substrate perpendicular to the carrier substrate by means of an embossing stamp, wherein

• a) the macroscopic structure is molded into the transfer layer, or
• b) the macroscopic structure is molded in the transfer layer and the carrier substrate, or
• c) the macroscopic structure is molded into the carrier substrate and the transfer layer is at least partially fixed in such a way over the macroscopic structure that the transfer layer follows the profile of the carrier substrate.

The inventive method allows the individualization of a motor vehicle license plate depending on the state, state or district, preferably directly in the Admission Board, without the use of different transfer layers would be necessary. Of course, the method according to the invention, however, can also be carried out by the manufacturer of motor vehicle license plates or by impressing the license plate in the carrier substrate, which is usually formed from metal. The macroscopic structure of the motor vehicle number plate according to the invention can be produced in a simple manner and therefore cost-effectively by means of an individually designable stamping die with very low outlay on equipment. The macroscopic structure forms a security element which, in combination with a preferably coordinated transfer layer, gives the motor vehicle license plate according to the invention increased security against alteration or imitation.

at German motor vehicle license plates is the level, of characteristic Information such as letters, numbers, or badges free area the carrier substrate, in which the macroscopic structure is to be formed, usually with a white one Foil coated already for alone as a transfer situation can act.

It has proved its worth, when molding the macroscopic structure into the transfer layer the thickness of at least one of the at least two different ones Layers of transfer layer at least in places, and / or at least one of at least two different layers of the transfer layer at least in places is interrupted. This is the process or license plate variants a) and b) possible and usually works an irreversible deformation of the transfer layer, which is also at a subsequent, manipulative smoothing or overprint remains identifiable.

Especially it is preferred to mold the macroscopic structure by means of lifting presses, because the expenditure on equipment is particularly low here. Of course it is a suitable macroscopic structure but also by a rolling process produced. The stamp or the embossing roll for molding the macroscopic structure is preferably heated, to the embossing effect still to reinforce.

Under a macroscopic structure is preferably one such understood that in the plane of the carrier substrate an extension in a range of at least 0.03 mm and perpendicular to the plane of the carrier substrate has an extension in a range of 0.01 to 0.1 mm, wherein Extreme distances within the macroscopic structure values in a range of 0.1 to 1.0 mm.

The macroscopic structure, for example, a periodic function with the spatial frequency of a maximum of 5 lines / mm. The same is true it is possible that the macroscopic structure is a piecewise continuous differentiable Function of a surface structure a relief picture is. But it is also possible that as macroscopic structure an asymmetric macroscopic structure is used, the incident light directed in one or more Directions reflected from the mirror reflex. Such macroscopic Structures can for example, from a periodic triangle function or from another piecewise be formed continuously differentiable function.

Especially has it proven if the macroscopic structure is a haptic detectable information includes. In such a case, the identification and verification of the Security feature in a simple manner feasible.

This even if the macroscopic structure is an optical, preferably with a bare one Eye detectable security feature generated.

Especially it is preferred if the macroscopic structure is a pattern, a Ornament or a marker, preferably with at least one periodic structure, forms. It is also possible, for example Coat of arms, city, portrait, animal or plant representations, representations of sights or technical things as well as typefaces and numerals for the macroscopic Structure on.

It has proven useful if the transfer film and / or the transfer layer and / or the macroscopic structure is in the form of a patch, preferably with a surface area of about 0.5 to 5 cm ² ()). This allows easy mounting of the macroscopic structure and / or the transfer layer in said flat area of the motor vehicle license plate.

Preferably becomes a transfer layer used, starting from the carrier substrate an adhesive layer, a reflective layer and an optically variable Layer has. So allows a, preferably formed of a thermally activated adhesive, Adhesive layer a simple fixation of the transfer layer on the carrier substrate.

A Reflection layer is preferably made of a metal, metal oxide or metal sulfide thin film formed and facilitates the review of a Security feature even at low illuminance.

A Optically variable layer can provide features with the superimposed macroscopic structure an additional Provide security feature. A layer thickness of the optical variable layer in the range of 0.1 to 1.5 microns is preferred.

Especially it is preferred if an optically variable layer is used which is at least in a surface area a different configuration to the rest of the optically variable layer when the macroscopic structure is perpendicular to the plane of the carrier substrate seen in the optically variable layer at least partially overlapping with the at least one surface area is molded so that the macroscopic structure of the at least a surface area at least partially superimposed, and if by an optical, preferably depending on the angle the observer different security feature is generated. Thus, the optically variable layer may be formed such that different macroscopic structures in one and the same transfer layer for the viewer make different pictures, colors, gradients etc. visible. The macroscopic structure leads to a tilting of the adjacent areas of the optically variable Layer or generates different angles of inclination in the optically variable layer, allowing the light depending on the viewing angle is reflected differently.

It has proved its worth, as a security feature a different depending on the angle Image to produce, with the differences preferably in motif and / or Color and / or brightness and / or gradient exist.

Especially has it proven if the macroscopic structure is a periodic structure with sinusoidal or sawtooth course has, so that the carrier substrate and / or the transfer position in the areas provided with the macroscopic structure different Angle of inclination the plane of the carrier substrate has / have.

The macroscopic structure can be superimposed periodic structures exhibit.

For the viewer can the visual impression of the transfer layer For example, depending on the angle of view, if one in the optically variable layer existing microstructure or color sequence of the superimposed macroscopic structure becomes. Due to the different inclination angle of the optical variable layer areas are either completely for the viewer hidden, optically highlighted or placed in the background, Here, the reflectivity For example, a microstructure depending on the angle of inclination of optically variable layer with respect to the viewing angle changed a lot can be.

Of the macroscopic structure may be a submicroscopic diffraction grating respectively a diffractive relief structure in the optically variable layer additive superimposed be, wherein the diffraction grating a relief profile with a Spatialfrequenz of preferably ≥ 2400 Lines / mm and a constant profile depth of ≤ 5 microns and the diffraction grating following the macroscopic structure maintains the predetermined relief profile. Especially it is advantageous here, as a diffractive relief structure a Relief structure to use, the incident light directed in one or more directions bends. Such relief structures can, for example of diffractive relief structures with an asymmetric, for example triangular Relief profile or binary Diffraction structures of zero order with corresponding properties be formed. Such diffractive relief structures are preferred set up to let the incoming light into one or more Directions from the mirror reflex bend, so that, when viewed in the mirror reflex, no or only a small part of the diffracted light is visible. Under diffuse illumination, the diffractive light remains Relief structure generated optical effect well recognizable, where against he in directional lighting, for example in a flash photography, the appearance does not affect.

there has it proven if the optically variable layer has at least one diffractive relief structure, which preferably forms a hologram or a latent hologram. Thus, a hologram is preferably generated as a security feature be, by by the formation of the macroscopic structure a in the optically variable layer already latent hologram is made visible.

Preferably has the optically variable layer at least two, by means of diffractive Relief structures on differently designed surface areas, wherein the macroscopic structure at least partially superimposed on a surface area, so that depending on the viewing direction different motif, color and / or Brightness impression arises.

Farther has it proven when the optically variable layer at least one thin-film element for generating viewing direction dependent color change effects by interference. Such a thin film element is preferred formed from an absorption layer and a spacer layer, the λ / 4 condition Fulfills. However, it is also possible such a thin film element build up from several high and low breaking layers. The Using a thin film element offers a high level of counterfeit security, since such elements only with a high technological effort can be produced and the color change for the viewer an easy represents a recognizable security element.

Preferably For example, the optically variable layer has at least one surface area in which a thin-film element is arranged, wherein the macroscopic structure of the at least a surface area at least partly superimposed, so that a different color impression depending on the viewing direction arises on an interference of at the interfaces of the thin based on reflected light.

One Thin film element can be made from a single thin film like a succession of on top of each other stacked thin films be formed in one plane. A thin film element can as well be formed from pigments or particles, each pigment or Particles completely is enclosed by one or a sequence of thin films. Such pigments are, for example, the term pearlescent pigment or effect pigment known.

Farther has it proven when the optically variable layer has at least one polarization layer. The presence of a polarization layer is visible to the naked eye not recognizable, so when checking this property a Analyzer is necessary.

Preferably For example, the optically variable layer has at least one surface area in which a polarizing layer is arranged, wherein the macroscopic structure at least partially superimposed on the at least one surface area, so that depending on the orientation of an analyzer for optically variable Layer creates a different brightness impression.

Farther it is advantageous if the optically variable layer is luminescent Contains dyes and / or pigments that in the visible, in the UV range or fluoresce or phosphoresce in the IR range.

there has it proven if the optically variable layer at least one surface area comprising luminescent dyes and / or pigments, wherein the macroscopic structure the at least one surface area at least partially superimposed, so that depending on the viewing direction of different color and / or Light impression arises.

Farther has it proven if the optically variable layer has a matt structure, preferably has an anisotropic matt structure. The matt structure preferably has a median roughness in the range between 200 nm and 5 microns.

Preferably For example, the optically variable layer has at least one surface area with a matt structure, wherein the macroscopic structure of the at least partially superimposed on at least one matt structure, then that a different color or brightness impression depending on the viewing direction arises.

It is natural also possible, that in a motor vehicle license plate according to the invention one or more of the security features described above combined, and the optically variable layer, for example both a diffractive relief structure, as well as thin-film elements and a polarizing layer.

there It may be necessary for the optically variable layer to have a Has hardness, the formation of the macroscopic structure in the transfer layer with at least partial retention of the at least one surface area the optically variable layer allowed. This is especially true Presence of diffractive relief structures or matt structures in the optically variable layer of the case, when over-stamping with the macroscopic structure should not be extinguished.

It has proved its worth, if the transfer situation at least one further layer on the optically variable layer, preferably has a transparent protective layer. The protective layer is preferably formed in a thickness of 0.5 to 5 microns and is preferably stable against the usual on a motor vehicle number plate acting environmental influences such for example, weathering, radiation or salts.

When Materials for the reflective layer is essentially chromium, aluminum, copper, Iron, nickel, silver, gold or an alloy with these materials in question. It is also possible that the reflection layer of a thin dielectric layer consists of an HRI material or an LRI material (HRI = High Refraction Index; LRI = Low Refraction Index).

Especially it is preferred if the reflection layer contains chromium or Completely made of chrome. So the reflection layer is also without protective layer largely protected against corrosion or dulling.

Between the adhesive layer and the reflective layer may further comprise a color layer, preferably with a layer thickness in the range of 1 to 5 microns, arranged be between the reflective layer and the color layer in addition a bonding agent layer may be arranged. A primer layer with a layer thickness in the range of 0.1 to 1.0 microns is preferred.

Farther has it proven if the protective layer and / or the color layer UV absorber and / or HALS stabilizer additives to improve UV resistance contains / contain.

The 1 to 9a are intended to exemplify the subject matter of the invention.

So shows:

1 the general structure of a motor vehicle number plate customary in Germany,

1a an enlarged section X from 1 with a first macroscopic structure,

1b an enlarged section X from 1 with a second macroscopic structure,

2 the cross section A - A 'by the motor vehicle license plate 1a .

2a a possible cross section B - B 'by the motor vehicle license plate 1a prepared according to process variant a),

2 B another possible cross section B - B 'by the motor vehicle license plate 1a prepared according to process variants b) or c),

2c another possible cross section B - B 'by the motor vehicle license plate 1a prepared according to process variants b) or c),

3 a schematic process flow to process variant c),

4 a schematic process flow to process variant a),

5 a schematic process flow to process variant b),

6 a further schematic process flow to process variant b),

7 a section of a motor vehicle license plate with a macroscopic structure, which superimposes diffractive relief structures in the optically variable layer of the transfer layer,

7a a cross section C - C 'by the motor vehicle license plate 7 .

8th a further detail of a motor vehicle license plate with a macroscopic structure, which is arranged directly in the acting as a transfer layer film coating of the carrier substrate,

8a a cross section D - D 'by the motor vehicle license plate 8th .

8b an enlarged cross section D - D 'by the motor vehicle license plate 8th in the Area Y,

9 a detail of a motor vehicle license plate with a transfer layer having thin-film elements, and

9a a cross section E - E 'by the motor vehicle license plate 9 ,

1 shows the general structure of a standard in Germany motor vehicle license plate 1 with a rectangular, usually metallic and coated carrier substrate 1a , The license plate 1 is with identifying information 1b like letters, numbers and plaques, with the letters and numbers colored and deep-drawn.

The level, of identifying information 1b like letters, numbers or plaques, free areas 1c of the motor vehicle license plate 1 are provided according to the invention with a further security element by at least one macroscopic structure is embossed there.

1a shows an enlarged section X from 1 with such a macroscopic structure 3a , The carrier substrate 1a is with a foil coating 5 or painting 6 provided on a transfer layer 2 is attached in the form of a patch. The macroscopic structure 3a is congruent with the transfer position 2 on the license plate 1 ,

1b shows a further enlarged section X from 1 with a macroscopic structure 3b , The carrier substrate 1a is with a foil coating 5 or painting 6 provided on a transfer layer 2 is attached in the form of a patch. The macroscopic structure 3b goes over the transfer situation 2 out into areas of the film coating 5 or the paint job 6 ,

2 shows a cross section A - A 'by the motor vehicle license plate 1 out 1a wherein the carrier substrate 1a with a foil coating 5 or a paint job 6 is provided. This is a transfer situation 2 arranged, made up of an adhesive layer 2a , a reflection layer 2 B and an optically variable layer 2c composed. The optically variable layer 2c has areas 4a on, which are designed differently in color. The foil coating 5 of the carrier substrate 1a but can also act as a transmission layer itself, so that the transmission position 2 may be omitted if necessary (see 8th and 8a ).

A suitable optically variable layer 2c can be formed, for example, by means of the following composition: ethyl acetate 44.70% cyclohexanone 44.70% Polymethymethacrylate (d = approx. 1.19 g / ccm, TG = approx. 122 ° C) 6.10% Cellulose compound (d = approx. 1.20 g / ccm, softening range: 140 - 240 ° C) 4.50%

A suitable protective layer can be formed, for example, by means of the following composition: methyl ethyl ketone 36.20% toluene 13.00% butylacetate 10.50% Cellulose nitrate (low viscosities, d = approx. 1.00 g / ccm, FK = approx. 65%) 9.80% HALS stabilizer (tetramethylpiperidine derivative) 0.50% UV absorber benzotriazole derivative (density approx. 1.17 g / ccm) 1.00% Melamine formaldehyde resin (d = approx. 0.98 g / ccm) 13.00% Hydroxyacrylic resin (d = approx. 1.01 g / ccm, OH content approx. 4.5%) 15.00% paratoluenesulfonic 1.00%

An additional color layer, not shown here, can be placed between the adhesive layer 2a and the reflection layer 2 B be arranged, wherein the color layer is either visible through the reflective layer or an opaque reflective layer has recesses through which the ink layer is visible. A suitable color layer can be formed, for example, by means of the following composition: methyl ethyl ketone 66.00% Thermoplastic acrylate (d = approx. 1.13 g / ccm, TG approx. 82 ° C) 17.50% HALS stabilizer (tetramethylpiperidine derivative) 0.10% UV absorber benzotriazole derivative, density approx. 1.17 g / ccm) 0.40% High molecular weight polyurethane resin (d = approx. 0.96 g / ccm) 1.50 Carbon, amorphous. (Pigment Black 7) 14.50%

Between the reflection layer 2 B and the color layer may further be arranged a primer layer, which is also not shown here.

A suitable adhesion promoter layer can be formed, for example, by means of the following composition: methyl ethyl ketone 35.00% toluene 45.00% ethanol 15.00% Vinyl chloride-vinyl acetate copolymer (d = about 1.21 g / cc) 4.90% dibutyltindilaurate 0.10%

2a shows a possible cross section B - B 'by the motor vehicle license plate 1 out 1a prepared according to process variant a), in which first the transfer layer 2 is fixed and then the macroscopic structure 3a in the transfer position 2 is molded. The macroscopic structure 3a is here in the optically variable layer 2c and the reflective layer 2 B the transfer situation 2 molded, with the differently shaped surface areas 4a the optically variable layer 2c through the macroscopic structure 3a be separated from each other.

2 B shows a further possible cross section B - B 'by the motor vehicle license plate 1 out 1a prepared according to process variants b) or c). The macroscopic structure 3a is here in both the transfer position 2 as well as in the carrier substrate 1a molded, wherein the transfer layer 2 opposite side of the carrier substrate 1a just stayed.

2c shows a further possible cross section B - B 'by the motor vehicle license plate 1 out 1a prepared according to process variants b) or c), wherein the transfer layer 2 opposite side of the carrier substrate 1a not just remained.

3 shows a schematic process flow to process variant c). An embossed stamp 11 is on a - possibly coated - carrier substrate 1a put on and a macroscopic structure 3b in the carrier substrate 1a imprinted. Subsequently, the carrier substrate 1a with a transfer layer 2 coated, the transfer layer 2 the macroscopic structure 3b at least partially covered and the profile of the carrier substrate 1a follows.

4 shows a schematic process flow to process variant a). An embossed stamp 11 is on a carrier substrate 1a that with a transfer layer 2 was coated, put on and a macroscopic structure 3b in the transfer position 2 imprinted.

5 shows a schematic process flow to process variant b). An embossed stamp 11 is on a carrier substrate 1a that with a transfer layer 2 was coated, put on and a macroscopic structure 3b both in the carrier substrate 1a as well as in the transfer situation 2 imprinted.

6 shows a further schematic process flow to process variant b). An embossed stamp 11 is on a carrier substrate 1a that with a foil coating 5 or a paint job 6 and a transfer location 2 was coated, put on and a macroscopic structure 3b both in the coated carrier substrate 1a as well as in the transfer situation 2 imprinted. This is only part of the transfer situation 2 so impressed that the macroscopic structure 3b not in the transfer situation 2 covered areas of the coated carrier substrate 1a continues.

7 shows a section of a motor vehicle license plate 1 with a carrier substrate 1a that with a foil coating 5 or a paint job 6 is provided. A transfer situation 2 with an optically variable layer 2c , which differently shaped surface areas 4b . 4c having different diffractive relief structures is on the motor vehicle license plate 1 attached and with a macroscopic structure 3c superimposed. Due to the diffraction of the visible radiation at the different diffractive relief structures, this leads to different visual impressions, depending on the viewing angle, because of the macroscopic structure 3c different surface areas 4b . 4c the optically variable layer 2c to be hidden to the viewer.

7a shows a cross section C - C 'by the motor vehicle license plate 1 out 7 ,

8th shows a further section of a motor vehicle license plate 1 with a macroscopic structure 3d that are made up of geometric shapes 3f . 3e . 3g composed and directly in the as transmission position 2 acting foil coating 5 of the carrier substrate 1a is molded. The macroscopic structure 3d superimposed by different diffractive relief structures differently designed surface areas 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n (please refer 8b ) in the area of the geometric shape 3e ,

8a shows a cross section D - D 'by the motor vehicle license plate 1 out 8th ,

8b indicates an enlargement of the area Y. 8a with the differently shaped by diffractive relief structures surface areas 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n , There is every surface area 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n deposited with a different color, being in the range of surface areas 4d . 4f . 4h . 4k and 4n fluorescent colors are arranged. Depending on the viewing angle of the observer, only the similar relief structures in the respective surface areas are shown here 4d or 4e etc. visible, so that, depending on the angle of view, nine different color and motif impressions and also a different fluorescence can be observed.

9 shows a section of a motor vehicle license plate 1 with a painted carrier substrate 1a , A transfer situation 2 in the form of a patch with an optically variable layer, which surface areas 4p . 4r (please refer 9a ) with aluminum thin film elements is on the motor vehicle license plate 1 attached and with a macroscopic structure 3h superimposed with a sawtooth profile in the areas 3k and 3y has different inclination angles. The area 3y forms perpendicular to the carrier substrate 1a seen a "U" due to the superimposition of the thin film elements with the macroscopic structure 3h does this because of in the areas 3k and 3y different inclination angle of the macroscopic structure 3h depending on the viewing angle to different color impressions.

9a shows the cross section E - E 'by the motor vehicle license plate 1 out 9 , wherein the transfer position 2 in the fields of 3k and 3y with different angles of inclination of the macroscopic structure 3h is shown. The macroscopic structure 3h superimposes the surface areas 4p . 4r with thin film elements.

Claims (36)

Method for producing a motor vehicle license plate ( 1 ) with a carrier substrate ( 1a ) on which a transfer layer ( 2 ) is fixed to a transfer film, wherein the transfer layer ( 2 ) from at least two different layers ( 2a . 2 B . 2c ), characterized in that in a level, of characteristic information ( 1b ) like letters, numbers or badges free area ( 1c ) of the carrier substrate ( 1a ) perpendicular to the plane of the carrier substrate ( 1a ) by means of an embossing stamp ( 11 ) a macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ), wherein a) first the transfer layer ( 2 ) and then the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) into the transfer position ( 2 ) or b) first the transfer layer ( 2 ) and then the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) simultaneously into the transfer position ( 2 ) and areas of the carrier substrate ( 1a ) is formed, which is at least partially from the transfer layer ( 2 ) are covered, or c) first the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) in the carrier substrate ( 1a ) and then the transfer layer ( 2 ) at least partially overlapping with the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) is fixed such that the transfer layer ( 2 ) the profile of the carrier substrate ( 1a ) follows. Method according to claim 1, characterized in that during molding of the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) into the transfer position ( 2 ) the thickness of at least one of the at least two different layers ( 2a . 2 B . 2c ) the transfer position ( 2 ) is at least locally reduced and / or at least one of the at least two different layers ( 2a . 2 B . 2c ) the transfer position ( 2 ) is interrupted at least in places. Method according to one of claims 1 to 2, characterized in that a transfer layer ( 2 ), which starting from the carrier substrate ( 1a ) an adhesive layer ( 2a ), a reflection layer ( 2 B ) and an optically variable layer ( 2c ) having. Method according to claim 3, characterized in that an optically variable layer ( 2c ) is used, which at least in a surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) one to the rest of the optically variable layer ( 2c ) has different design that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) perpendicular to the plane of the carrier substrate ( 1a ) seen in the optically variable layer ( 2c ) at least partially overlapping with the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) is molded so that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) is at least partially superimposed, and that thereby an optical, preferably different depending on the perspective security feature is generated. A method according to claim 4, characterized in that as a security feature, a hologram is generated by the formation of the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) in the optically variable layer ( 2c ) is made visible latent hologram. Method according to claim 4 or 5, characterized that as a security feature a different depending on the perspective image is generated, the differences preferably in motif and / or Color and / or brightness and / or gradient exist. Method according to one of claims 1 to 6, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) is molded by lifting presses. Method according to one of claims 1 to 7, characterized in that the stamp ( 11 ) for molding the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) is heated. Motor vehicle number plate ( 1 ) with a carrier substrate ( 1a ) on which a transfer layer ( 2 ) is fixed to a transfer film, wherein the transfer layer ( 2 ) from at least two different layers ( 2a . 2 B . 2c ), characterized in that in a level, of characteristic information ( 1b ) like letters, numbers or badges free area ( 1c ) of the carrier substrate ( 1a ) perpendicular to the plane of the carrier substrate ( 1a ) by means of an embossing stamp ( 11 ) a macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ), where either a) the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) into the transfer position ( 2 ) or b) the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) in the transfer position ( 2 ) and the carrier substrate ( 1a ) or c) the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) in the carrier substrate ( 1a ) and the transfer layer ( 2 ) at least partially above the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) that the transfer layer ( 2 ) the profile of the carrier substrate ( 1a ) follows. Motor vehicle number plate ( 1 ) according to claim 9, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) the thickness of at least one of the two different layers ( 2a . 2 B . 2c ) the transfer position ( 2 ) at least in places and / or that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) at least one of the two different layers ( 2a . 2 B . 2c ) the transfer position ( 2 ) interrupts at least in places. Motor vehicle number plate ( 1 ) according to one of claims 9 to 10, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) an extension in the plane of the carrier substrate ( 1a ) of at least 0.03 mm and an extent perpendicular to the plane of the carrier substrate ( 1a ) in a range of 0.01 to 0.1 mm, wherein extreme distances within the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) Have values in a range of 0.1 to 1.0 mm. Motor vehicle number plate ( 1 ) according to any one of claims 9 to 11, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) comprises haptically detectable information. Motor vehicle number plate ( 1 ) according to any one of claims 9 to 12, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) generates an optical, preferably detectable with the naked eye security feature. Motor vehicle number plate ( 1 ) according to any one of claims 9 to 11, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) forms a pattern, an ornament or a mark, preferably with at least one periodic structure. Motor vehicle number plate ( 1 ) according to any one of claims 9 to 14, characterized in that the transfer film and / or the transfer layer ( 2 ) and / or the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) in the form of a patch, preferably with a surface area of about 0.5 to 5 cm ^{2 is} formed. Motor vehicle number plate ( 1 ) according to one of claims 9 to 15, characterized in that the transfer layer ( 2 ) starting from the carrier substrate ( 1a ) an adhesive layer ( 2a ), a reflection layer ( 2 B ) and an optically variable layer ( 2c ) having. Motor vehicle number plate ( 1 ) according to one of claims 14 to 16, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) has a periodic structure with sinusoidal or sawtooth-shaped course, so that the carrier substrate ( 1a ) and / or the transfer position ( 2 ) in the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) provided at different angles of inclination relative to the plane of the carrier substrate ( 1a ). Motor vehicle number plate ( 1 ) according to one of claims 14 to 17, characterized in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) forms a lattice structure. Motor vehicle number plate ( 1 ) according to claim 16, characterized in that the optically variable layer ( 2c ) at least in one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) one to the rest of the optically variable layer ( 2c ) has different design that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) perpendicular to the plane of the carrier substrate ( 1a ) seen in the optically variable layer ( 2c ) at least partially overlapping with the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) is molded so that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) is at least partially superimposed, and that thereby an optical, preferably different depending on the perspective security feature is formed. Motor vehicle number plate ( 1 ) according to one of claims 16 to 19, characterized in that the optically variable layer ( 2c ) has at least one diffractive relief structure which preferably forms a hologram or a latent hologram. Motor vehicle number plate ( 1 ) according to claim 20, characterized in that the optically variable layer ( 2c ) at least two differently shaped surface regions by means of diffractive relief structures (US Pat. 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) and that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) At least partially superimposed, so that arises depending on the viewing direction different motive, color and / or brightness impression. Motor vehicle number plate ( 1 ) according to claim 21, characterized in that the diffractive relief structures form a latent hologram and that the hologram due to the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) is visible. Motor vehicle number plate ( 1 ) according to one of claims 16 to 22, characterized in that the optically variable layer ( 2c ) has at least one thin-film element for generating viewing direction-dependent color change effects due to interference. Motor vehicle number plate ( 1 ) according to claim 23, characterized in that the optically variable layer ( 2c ) at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ), in which a thin-film element is arranged, and in that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) At least partially superimposed, so that arises depending on the viewing direction different color impression. Motor vehicle number plate ( 1 ) according to one of claims 16 to 24, characterized in that the optically variable layer ( 2c ) has at least one polarization layer. Motor vehicle number plate ( 1 ) according to claim 25, characterized in that the optically variable layer ( 2c ) at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ), in which a polarization layer is arranged, and that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) is at least partially superimposed, so that depending on the orientation of an analyzer to optically variable layer ( 2c ) creates a different brightness impression. Motor vehicle number plate ( 1 ) according to one of claims 16 to 26, characterized in that the optically variable layer ( 2c ) contains luminescent dyes and / or pigments which fluoresce or phosphoresce in the visible, in the UV range or in the IR range. Motor vehicle number plate ( 1 ) according to claim 27, characterized in that the optically variable layer ( 2c ) at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) containing luminescent dyes and / or pigments, and that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) At least partially superimposed, so that arises depending on the viewing direction of different color and / or light impression. Motor vehicle number plate ( 1 ) according to one of claims 16 to 28, characterized in that the optically variable layer ( 2c ) has a matt structure, preferably an anisotropic matt structure. Motor vehicle number plate ( 1 ) according to claim 29, characterized in that the optically variable layer ( 2c ) at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) having a matt structure, and that the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) The at least one mat structure at least partially superimposed, so that depending on the viewing direction different color or brightness impression arises. Motor vehicle number plate ( 1 ) according to one of claims 19 to 30, characterized in that the optically variable layer ( 2c ) has a hardness which limits the formation of the macroscopic structure ( 3a . 3b . 3c . 3d . 3e . 3f . 3g . 3h ) in the transfer position ( 2 ) with at least partial retention of the at least one surface area ( 4a . 4b . 4c . 4d . 4e . 4f . 4g . 4h . 4y . 4k . 4m . 4n . 4p . 4r ) of the optically variable layer ( 2c ). Motor vehicle number plate ( 1 ) according to one of claims 16 to 31, characterized in that the transfer layer ( 2 ) on the optically variable layer ( 2c ) has at least one further layer, preferably a transparent protective layer. Motor vehicle number plate ( 1 ) according to one of claims 16 to 32, characterized in that the reflection layer ( 2 B ) Contains chromium or is formed from chromium. Motor vehicle number plate ( 1 ) according to one of claims 16 to 33, characterized in that between the adhesive layer ( 2a ) and the reflection layer ( 2 B ) A color layer is arranged. Motor vehicle number plate ( 1 ) according to claim 34, characterized in that between the reflection layer ( 2 B ) and the color layer, a primer layer is arranged. Motor vehicle number plate ( 1 ) according to any one of claims 16 to 35, characterized in that the protective layer and / or the color layer UV absorber and / or HALS stabilizer additives for improvement tion of UV resistance contains / contain.