DE102018221351A1 - Method for providing a lighting device and motor vehicle with a lighting device - Google Patents

Abstract

The invention relates to a method for providing a lighting device (10) on a motor vehicle component (12, 26), the motor vehicle component (12, 26) and an electroluminescent film (16) having a predetermined contour (16a) being provided and the film ( 16) is applied to the motor vehicle component (12, 26) provided, as a result of which the lighting device (10) is provided on the motor vehicle component (12, 26).

Description

The invention relates to a method for providing a lighting device on a motor vehicle component, and a motor vehicle with a lighting device.

Most known lighting concepts, such as rear lights and other add-on parts with light functions for motor vehicles, are relatively large, therefore require a lot of installation space and are not particularly flexible in order to be adapted to different surfaces. Accordingly, the development effort for such lighting devices is usually very high.

The EP 1 775 512 A1 describes a light unit for vehicles, which is preferably designed as a rear light. This has a housing in which a lamp is housed, which is behind a lens. Furthermore, the lamp unit has an electroluminescent layer, which is provided on the lens. As a result, the components required for the lamps in the housing, such as reflectors, can be used without restriction. However, this rear light also builds very large.

The WO 2017/032802 A1 describes an organic light-emitting component which can also be used in a rear light in a motor vehicle and which has a functional layer stack between two electrodes. The functional layer stacks comprise two organic light-emitting layers and at least one charge carrier generation zone. The light-emitting component further comprises an encapsulation and a substrate and is housed in a plastic housing. Although the use of organic light-emitting layers can bring about a reduction in the overall height, this component is also rigid and therefore not particularly flexible and can be adapted to any geometries and must be manufactured accordingly for its special mounting position.

Furthermore describes the DE 10 2005 038 680 A1 a three-dimensional component of a motor vehicle with a three-dimensionally shaped surface which has an electroluminescent layer. Such a component can be comprised, for example, by a lamp or a headlight of a motor vehicle. The electroluminescent layer has a pigment layer which is arranged between two electrode layers, at least one of which is partially transparent. To manufacture the component, a thermoplastic film is coated with an electroluminescent layer by means of screen printing, subjected to an isostatic high-pressure deformation and then punched out. The structure is then placed in an injection mold and back-molded on the inner wall using a thermoplastic. This provides a three-dimensional molded plastic part with an electroluminescent layer attached to the three-dimensionally shaped surface. The use of such electroluminescent layers therefore enables significantly more adaptations to different geometries and at the same time enables a space-efficient construction. Nonetheless, the desire to provide even more flexibility in terms of application options remains.

The object of the present invention is therefore to provide a method for providing a lighting device on a motor vehicle component and a motor vehicle with such a lighting device, which make it possible to further increase the flexibility with regard to the possible uses.

This object is achieved by a method and a motor vehicle with the features according to the respective independent patent claims. Advantageous embodiments of the invention are the subject of the dependent claims, the description and the figures.

In a method according to the invention for providing a lighting device on a motor vehicle component, the motor vehicle component is provided and furthermore an electroluminescent film with a predetermined shaped contour is provided and the film is applied, in particular laminated, to the motor vehicle component provided, as a result of which the lighting device is provided on the motor vehicle component.

The invention is based on the knowledge that such a component with an electroluminescent film can not only be provided by back-molding the film with plastic, but that such an electroluminescent film advantageously also allows it to be arranged on already finished components of a motor vehicle for Example by laminating the film onto the surface of the motor vehicle component provided. This advantageously enables numerous so-called aftermarket applications and thus significantly more flexibility in the possible uses of the lighting device. Thus, for example, a finished motor vehicle can be retrofitted with certain light functions in a particularly simple and inexpensive manner. For example, a motor vehicle can be expanded to include so-called side marker lights, which are required, for example, in the United States. You can also easily access the Side mirrors Luminaires for the blind spot mirror display can be retrofitted, which means that additional driver assistance functions that involve lighting devices can be retrofitted in a simple and cost-effective manner. The attached film can also be used to easily implement a desired lighting design for the user, as a result of which a motor vehicle can be customized easily and inexpensively even after completion according to the wishes of a user. In addition, such an electroluminescent film is flexible and can therefore be applied particularly easily to both flat and curved surfaces. The foils can also be provided in a particularly thin manner, in particular with a thickness of approximately 1 mm, so that lighting devices that are particularly space-efficient can be provided as a result. To apply such an electroluminescent film to particularly strongly curved surfaces, it is also possible to first adapt such a film to the surface geometry by deep drawing and then to stick it to the surface. Alternatively or additionally, the film can be heated or heated for application to the motor vehicle component. This simplifies the adaptation to strongly curved surfaces. In addition, such a film can also be cut in any manner so that a film with the desired predetermined contour can be provided in a particularly simple and inexpensive manner. Different colors can also be provided by the electroluminescent film if required. The electroluminescent film can thus be used as a lighting device both in the interior of a motor vehicle and on the outside for any lighting purposes. In particular, a particularly flexible, scalable, shape-free and easy-to-process light source, which functions as a lighting device, can be arranged on a motor vehicle component.

As already mentioned, the film can be applied to the motor vehicle component, for example, by lamination. Here, the film can be glued to the motor vehicle component, for example by means of an adhesive, and / or can be arranged on the motor vehicle component by means of a material, thermal joining process, in particular without auxiliary materials.

In an advantageous embodiment of the invention, an electroluminescent film web is provided to provide the film with the predetermined shaped contour, and a part with the predetermined shaped contour is cut out of the film web, whereby the electroluminescent film is provided with the predetermined shaped contour. Cutting can also be understood as punching out or separating the part from the remaining film web in a different way. As a result, the provision of the electroluminescent film with the predetermined shape is particularly economical and efficient. The film web can be provided, for example, by a corresponding film roll. This can be unrolled and then the film with the predetermined contour can be cut out or punched out several times from this unrolled film web. As a result, a large number of such electroluminescent foils with a predetermined shaped contour can be provided in a particularly simple and efficient manner for a motor vehicle or also various motor vehicles.

It is therefore a further advantageous embodiment of the invention if a plurality of parts with the predetermined shaped contour are cut out of the film web, which are arranged on the plurality of motor vehicle components to provide a plurality of lighting devices on a plurality of motor vehicle components of different motor vehicles. Because of its simplicity, this manufacturing method for providing the foils is particularly cost-effective and, above all, efficient, since it allows the production of countless lighting devices in a particularly short time and in a particularly simple manner.

In a further advantageous embodiment of the invention, at least a pair of connections for supplying current to the film are arranged on the film, the film being designed such that it lights up when it is energized and does not light up when it is not energized. The connections can be made, for example, after the film has been cut out of the film web and before or after the film has been applied to the motor vehicle component provided. For this purpose, the film can also have, for example, two planar electrodes, between which the electroluminescent layer is located, in which case at least one of the two electrodes is transparent or partially transparent. However, it is preferred that, for example, the two connections of the connection pair are arranged on opposite sides of the contour of the part of the electroluminescent layer to be energized, so that current does not flow from one connection via the electroluminescent layer to the other without the need for further, in particular large-area electrodes other connection can take place, or vice versa or alternately in the case of alternating current. This in turn simplifies the construction of the electroluminescent film. This can then have, for example, only a backing layer to which the electroluminescent layer is applied, and an optional top layer or the backing layer or backing film functions as such top layer and is then preferably made at least partially transparent accordingly. The connections are still arranged in the area of the contour of the film. This makes connecting the electroluminescent film particularly simple.

The film can thus be switched into the energized state and into the de-energized state depending on a control signal. The control signal can in turn take place depending on the application and type of the lighting device as a function of at least one corresponding parameter. Such a parameter can also represent a sensor signal of a sensor device, in particular environment sensor system, of the motor vehicle. Such a control signal can also be provided independently for several areas of the film, as will be described in more detail later. If the lighting device represents a back man, the film or at least a region thereof is switched to the energized state by a corresponding control signal as a function of braking the vehicle, engaging a reverse gear and / or as a function of the turn signal by the user . The self-illuminating film can also be used for external communications, in particular optical communication with at least one road user. For example, the film can be used to attach one or more individual symbols to the vehicle that start to light up in predetermined key situations. An example here would be a distance warning for the following traffic, which was detected by at least one sensor device of the motor vehicle, for example a camera and / or a LIDAR (Light Detection And Ranging) and / or a radar and / or an ultrasonic sensor. If, for example, a subsequent road user falls below a certain, in particular speed-dependent, minimum distance from the motor vehicle, this can be detected by the at least one sensor device and, depending on this, the sensor signal for energizing the film or only a region thereof can be transmitted to the current source of the film, which the film is correspondingly energized, as a result of which the film or the at least one area lights up and thus outputs a distance warning to the following road user. This also makes it easy to add certain additional safety functions to a vehicle. This optical communication with other road users can also be used through the film, for example in emergency vehicles such as ambulances, police, emergency doctors, fire brigades, etc., to warn or request other road users to stop, drive away, etc.

The current source for energizing the film is preferably arranged internally at some position, so that it is not visible in a plan view of the film applied to the motor vehicle component. For example, the power source can be arranged on a side of the motor vehicle component opposite the film. The connections can then be routed through the motor vehicle component, for example through a small opening, or passed past the edge thereof and coupled to the power source.

It is also advantageous if the film has a plurality of regions which, when energized, shine in different colors. This is particularly advantageous in particular for providing a rear light as a lighting device, so that the electroluminescent film makes it possible to provide a red light for the brake light, an orange light for the rear indicator and a white light for the rear light. However, the lighting device can also be designed as any other luminaire or luminaire unit and, for example, only serve as a non-functional design element. Here, too, the possibility of implementing different colors is particularly advantageous. If these respective areas are not separated from one another, but are connected, then these areas can only shine or not shine by energizing the electroluminescent film. This is also advantageous for many applications and enables a particularly simple construction of the lighting device. However, it is also possible to switch the respective areas individually to the illuminated and non-illuminated state.

Therefore, a further particularly advantageous embodiment of the invention is when the film is segmented into a plurality of segments which are electrically insulated from one another and can each be controlled individually. Again, this is particularly advantageous in relation to the above-mentioned rear light, since it enables the respective light functions such as brake light, reversing light and turn signal light to be controlled independently of one another. The segments that are electrically insulated from one another can also shine in different colors when lit, but this need not necessarily be the case. A plurality of segments of the same color that are electrically insulated from one another can also be provided, which can be controlled individually and independently of one another and can thus be converted from the non-illuminating to the illuminating state and vice versa. Rear lights are often divided into two, one part being located on the trunk lid and the other part on the non-moving part of the rear. A corresponding segmentation of the film can also be carried out for such a purpose, in which case two separate but then one same light function, such as a reversing light, turn signal or Brake light, assigned film areas can be controlled synchronously.

It is particularly advantageous if the film is segmented by spatially separating the individual segments from one another by means of a laser. As a result, the individual segments which are electrically insulated from one another can be produced particularly precisely. Such an electrical separation can therefore be achieved in a particularly simple manner by laser cutting, in particular even after the film has been applied to any surface. Furthermore, such a laser cutting also permits better component tolerance since the laser cutting can be carried out after installation on the end product, that is to say on the motor vehicle. In other words, the contour of the electroluminescent film can also be improved by laser cutting. The laser cutting also allows very filigree segments to be implemented in a particularly simple and cost-effective manner.

In principle, the film could also be divided into corresponding segments before attaching it to the motor vehicle component, in particular also by means of laser cutting, but attaching the electroluminescent film as a whole to the provided motor vehicle component is enormously simplified if this segmentation only takes place after the fact. It is therefore a further preferred embodiment of the invention that the film is segmented after the film has been applied to the motor vehicle component provided. Especially when multi-celled and precisely arranged individual segments are to be provided by the film, this is particularly easy with subsequent laser cutting. This also significantly reduces the manufacturing costs.

Furthermore, a pair of connections are preferably arranged on each segment in order to energize each segment individually as a function of a control signal. Again, this can be implemented very easily as described. The current supply and the arrangement of the connections can in particular take place analogously for each individual segment, as already described above.

To provide a multicolored electroluminescent film, a corresponding film web with several individual areas for different luminous colors can also be provided quite analogously. The foils can be cut out of this foil web in the desired geometry with their specific contour, glued to the motor vehicle component, the individual areas, which are assigned to the different colors, can be spatially and electrically isolated from one another by laser and then to the individual one A suitable pair of connectors can be attached to areas. This possibility of segmentation and the formation of particularly fine areas, which can also be controlled individually, can also be used to implement any light pattern, for example also light animations.

The invention also includes a motor vehicle with a lighting device which has been arranged on a motor vehicle component of the motor vehicle by means of a method according to the invention or individual configurations. The advantages described for the method according to the invention and its configurations apply in the same way to the motor vehicle according to the invention.

The invention also includes combinations of the features of the described embodiments.

• 1 eine schematische Darstellung eines Ablaufdiagramms zur Veranschaulichung eines Verfahrens zum Bereitstellen einer Beleuchtungseinrichtung an einem Kraftfahrzeugbauteil gemäß einem Ausführungsbeispiel der Erfindung;
• 2 eine schematische Darstellung einer mehrfarbigen elektrolumineszierenden Folie zum Aufbringen auf ein Kraftfahrzeugbauteil gemäß einem Ausführungsbeispiel der Erfindung;
• 3 eine schematische Darstellung einer rechtecksförmigen elektrolumineszierenden Folie mit vier Anschlusspaaren zum Anbringen an einem Kraftfahrzeugbauteil gemäß einem weiteren Ausführungsbeispiel der Erfindung;
• 4 eine schematische Darstellung einer als eine Ladekontrollanzeige im Tankdeckel ausgeführten Beleuchtungseinrichtung gemäß einem Ausführungsbeispiel der Erfindung;
• 5 eine schematische Darstellung einer als Totwinkelspiegelanzeige an einem Außenspiegel angeordneten Beleuchtungseinrichtung gemäß einem weiteren Ausführungsbeispiel der Erfindung; und
• 6 eine schematische Darstellung einer an einem Seitenspiegel eines Kraftfahrzeugs angeordneten Beleuchtungseinrichtung mit einer mehrfarbigen elektrolumineszierenden Folie gemäß einem weiteren Ausführungsbeispiel der Erfindung.

An exemplary embodiment of the invention is described below. This shows:

• 1 is a schematic representation of a flowchart to illustrate a method for providing a lighting device on a motor vehicle component according to an embodiment of the invention;
• 2nd a schematic representation of a multi-colored electroluminescent film for application to a motor vehicle component according to an embodiment of the invention;
• 3rd a schematic representation of a rectangular electroluminescent film with four connection pairs for attachment to a motor vehicle component according to a further embodiment of the invention;
• 4th a schematic representation of a lighting device designed as a charge control display in the fuel cap according to an embodiment of the invention;
• 5 a schematic representation of a lighting device arranged as a blind spot mirror display on an outside mirror according to a further exemplary embodiment of the invention; and
• 6 a schematic representation of an arranged on a side mirror of a motor vehicle lighting device with a multi-colored electroluminescent film according to a further embodiment of the invention.

1 shows a schematic representation of a flowchart to illustrate a method for providing an illumination device 10th on a motor vehicle component, here in particular on a motor vehicle 12 according to an embodiment of the invention. The lighting device 10th is intended as a rear light of the motor vehicle 12 be formed. However, numerous other possible uses are also conceivable, which can be implemented quite analogously. First, a film sheet 14 an electroluminescent film in step S10 provided. To provide different colors of the rear light 10th it is advantageous if this film web 14 Has areas which are assigned to respective fluorescent colors. In this example, the film web points 14 three areas 14a , 14b , 14c which shine with a different color when illuminated. Especially in connection with a rear light, the colors red, orange and white are particularly advantageous. A part can now be made from this film web 16 with a predetermined contour 16a be cut out. this part 16 then puts the electroluminescent film 16 with the predetermined contour 16a ready. The cutting is done in step S12 . From the film web 14 can in particular several such parts 16 are cut out, which can in particular be of the same or different shapes, depending on the lighting devices to be provided 10th . So can be made from a sheet of film 14 several electroluminescent foils 16 each with a predetermined contour 16a , for example for arrangement on motor vehicle components of various motor vehicles 12 provide what makes the process particularly efficient.

The step S12 provided electroluminescent film 16 with the predetermined contour 16a now also has three corresponding color areas 18a , 18b , 18c on. To energize the film 16 are also connections to the electroluminescent film 16 arranged. To the respective areas 18a , 18b and 18c To be able to control independently of each other, there are a pair of connections in the present case 20a , 20b , 20c , for example on opposite sides of the respective areas 18a , 18b , 18c in the area of the contour 16a arranged. Via the respective connections 20a , 20b , 20c can the slide 16 are supplied with electricity and thereby made to glow. This applies in particular to the respective areas 18a , 18b , 18c independently of each other. These respective areas 18a , 18b , 18c All or just one or two can be divided into two sub-areas in order to make the rear light in two parts, so that part of the rear light is on the trunk lid. Then a pair of connections is also provided for a respective sub-area. Generally the slide 16 Depending on the application, are divided into several areas that should be separately controllable, which can be the same color or different colors, with a pair of connectors being provided for each of the areas.

The one in the electroluminescent film 16 contained electroluminescent layer, ie a layer made of a material that is luminescent when current is applied, is electrically conductive so that by applying a voltage to the respective connections 20a , 20b , 20c a current flow through the respective areas 18a , 18b , 18c is brought about, which makes the areas glow. In this example, no separate electrode layers between which the electroluminescent layer is embedded need to be provided. Nevertheless, this would also be possible.

This slide 16 is now arranged on a motor vehicle component, as in step S14 is illustrated. For this purpose the film 16 on the rear of the motor vehicle 12 laminated or glued to the desired position. To the individual areas 18a , 18b , 18c the slide 16 To be able to control them independently, they must also be electrically isolated from one another. This is done after the film has been applied 16 on the motor vehicle 12 in step S16 using a laser. A laser can therefore advantageously be used after the film has been applied 16 on the motor vehicle 12 very precise spatial separations 22a , 22b between the areas 18a , 18b , 18c and thus provide electrical insulation. In addition, the contour can also be created by such a laser cutting 16a the slide 16 can be subsequently improved or specified. Such a laser cutting thus permits better component tolerance since the laser cutting after installation on the end product, that is to say on the motor vehicle 12 , can be done. The connections 20a , 20b , 20c can also only after application of the film 16 on the motor vehicle 12 in step S14 be attached, especially before or after separating the individual areas 18a , 18b , 18c .

Ultimately, this is due to the electroluminescent film 16 a surface light with several colors as surface emitter with particularly good homogeneity in the simple and adaptable and editable film structure provided. Such a slide 16 is not only suitable as a rear light as in this example, but also enables a wide range of applications due to its particularly flexible arrangement options. In particular, the film 16 anywhere in the exterior of the motor vehicle 12 as well as in the interior, for example as arm rail lighting, ambient lighting, search and / or functional lighting of control elements and the like. For example, through the film 16 a turn signal can also be provided on the exterior mirror. Through the slides 16 can also Illuminated areas for external communication, such as a charge indicator in the fuel cap, a blind spot indicator, or the like, are provided, as will be described in more detail below. A particularly great advantage of this electroluminescent film 16 and their attachment to a motor vehicle component that has already been completed in particular have the great advantage that certain lighting functions can also be retrofitted in a particularly simple manner. This means that the motor vehicle can already be finished, in particular has already been sold, and yet further additional and originally non-existent light functions can be provided by simply applying such a film by lamination at the desired position.

2nd shows a schematic representation of a further example of an electroluminescent film 16 , especially a multi-colored film 16 , im not from a provided film web or a film piece 14 cut out condition. This slide 16 now has another predetermined shape of the contour 16a to illustrate that there are no limits to the geometric training options. In this example is the slide 16 again in three colors, that is, it has a first area 18a a first color, for example green, on several second areas 18b a second color, for example dark blue, and several third areas 18c a third color, for example light blue. These areas 18a , 18b , 18c The colors described do not necessarily also have to take on in the non-luminous state, but have these colors at least in the luminous state. In order to be able to control the areas individually, can in turn for a particular area 18a , 18b , 18c appropriate connection pairs are provided. However, this does not necessarily have to be the case, in principle one pair of connections is also sufficient. In this case, all areas 18a , 18b , 18c when energizing the film 16 light up simultaneously via the connection pair. This slide too 16 can now along the contour 16a are cut out or punched out and arranged in a suitable position of a motor vehicle component.

3rd shows a further schematic representation of an example of a film 16 , which is rectangular in this example. Furthermore are on each side 24a , 24b , 24c , 24d the contour 16a a pair of connectors 20a , 20b , 20c , 20d arranged. This allows four areas 18a , 18b , 18c , 18d the slide 16 are powered independently. These areas 18a , 18b , 18c , 18d can also be designed arbitrarily in their geometric shape, with a respective area in turn being a pair of connections 20a , 20b , 20c , 20d assigned. For example, the rectangular film can be divided into four such areas along its diagonals 18a , 18b , 18c , 18d be segmented. These areas 18a , 18b , 18c , 18d can in turn be designed differently in color or also in the same color.

4th shows a further embodiment of a lighting device 10th , which in this example as a charge indicator in a fuel cap of a motor vehicle 12 is trained. Every single bar 18a , of which only one is provided with a reference symbol for reasons of clarity, provides a separately energizable area 18a the slide 16 The respective bars 18a can in turn be designed in the same or different colors. By laser structuring, as already for 1 described, very delicate structures can be implemented. The connections can also be easily made using thin wires.

5 shows a further schematic representation of an embodiment of a lighting device 10th with an electroluminescent film 16 , which in this example shows a blind spot display on a side mirror 26 as an example of a motor vehicle component of the motor vehicle 12 represents. In this example, the slide 16 be of single color, for example in yellow or orange and also have only a single current-carrying area. In particular, this example shows that such a blind spot monitoring function can also be easily implemented on existing vehicles by attaching an electroluminescent film 16 can be provided. For example, the side mirror does not have to be used for this purpose 26 be completely replaced.

Another example is in 6 shown, in which in turn a multi-colored film 16 on a side mirror 26 is arranged. Through different areas 18a , 18b , 18c can in the illuminated state of the slide 16 For example, the colors black, red, gold are provided so that this lighting device 10th For example, in a simple way at events such as the soccer World Cup or EM can be used instead of, for example, conventional side mirror covers.

Due to the flexibility of such an electroluminescent film, its simple provision and its particularly simple arrangement possibility, in particular subsequent arrangement possibility on any motor vehicle components, a particularly space-efficient, inexpensive and particularly flexible lighting device can be provided on and in motor vehicles. Due to the flexibility of such a film, it can be made any three-dimensional Adjust the shaped surface. In addition, any free-form surfaces can be designed as luminaires and enormous cost savings can be achieved through lower development and unit costs. In addition, regional adjustments, such as luminous area per light function and region, are made possible in a simple manner by targeted cutting. Compared to conventional rear lights, which weigh approx. 500 g, such a lighting device can also achieve an enormous weight advantage and at the same time also save CO ₂ .

Reference symbol list

10th

Lighting device

12

Motor vehicle

14

Foil web

14a

Areas

16

foil

16a

contour

18a

Area

18b

Area

18c

Area

20a

connections

20b

connections

20c

connections

22a

Separations

24a

page

24b

page

24c

page

24d

page

26

Side mirror

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• EP 1775512 A1 [0003]
• WO 2017/032802 A1 [0004]
• DE 102005038680 A1 [0005]

Claims (10)

Method for providing a lighting device (10) on a motor vehicle component (12, 26), comprising the steps: - Providing the motor vehicle component (12, 26); - Providing an electroluminescent film (16) with a predetermined shaped contour (16a); and - Applying the film (16) to the motor vehicle component (12, 26) provided, whereby the lighting device (10) is provided on the motor vehicle component (12, 26). Procedure according to Claim 1 , wherein to provide the film (16) with the predetermined contour (16a), an electroluminescent film web (14) is provided and a part (16) with the predetermined contour (16a) is cut out of the film web (14), whereby the electroluminescent film (16) with the pre-shaped contour (16a) is provided. Procedure according to Claim 2 A plurality of parts (16) with a predetermined shaped contour (16a) are cut out of the film web (14) and are arranged on several motor vehicle components (12, 26) of different motor vehicles (12) in order to provide a plurality of lighting devices (10). Method according to one of the preceding claims, wherein at least one pair of connections (20a, 20b, 20c) for energizing the foil (16) are arranged on the foil (16), the foil (16) being designed such that it is in the energized state lights up and does not light up when not energized. Method according to one of the preceding claims, wherein the film (16) has a plurality of regions (18a, 18b, 18c) which, when energized, shine in different colors. Method according to one of the preceding claims, wherein the film (16) is segmented into a plurality of segments (18a, 18b, 18c) which are electrically insulated from one another and can each be controlled individually. Procedure according to Claim 6 The segmentation of the film (16) is carried out by spatially separating the individual segments (18a, 18b, 18c) from one another by means of a laser. Procedure according to one of the Claims 6 or 7 The film (16) is segmented after the film (16) has been applied to the motor vehicle component (12, 26) provided. Procedure according to one of the Claims 6 to 8th , wherein a pair of connections (20a, 20b, 20c) are arranged on each segment (18a, 18b, 18c) in order to energize each segment (18a, 18b, 18c) individually in response to a control signal. Motor vehicle (12) with a lighting device (10), which was arranged by a method according to one of the preceding claims on a motor vehicle component (12, 26) of the motor vehicle (12).

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