FIELD OF THE INVENTION

The present invention relates to a component for a vehicle interior and, and more particularly, to a component for a vehicle interior providing a passenger compartment. The present invention further relates to a trim part for an interior of a vehicle and a method for producing a trim part, preferably for an interior of a vehicle.

BACKGROUND Vehicle interior trim parts and vehicle interior components are provided throughout the cabin of a typical passenger vehicle. The interior trim parts and components provide many of the surfaces directly facing and defining the interior, such that the look and feel of the vehicle interior is directly influenced by the interior trim parts. The interior trim parts and components may also be used to conceal and protect functional components within the vehicle door(s), dashboard, center console, etc.

Although a wide variety of different materials, colors, and/or patterns are available for selection by a vehicle manufacturer or consumer, there is a need for vehi- cle interior trim parts and vehicle interior components having an outer appearance which meets the demands for a high-end vehicle.

Interior trim parts and components are used in motor vehicle passenger com- partments as for example trim panels covering car body elements in the area of the doors. Interior trim components are also used as cladding in other areas of the vehicle's interior. Such interior trim fittings consist for example of various plastic materials, cloth materials or high-quality materials such as leather as well as combinations thereof.

Interior trim fittings of this type frequently serve not only as just trim paneling for vehicle body elements or the like but also increasingly serve to attract the attention of consumers and enhance the overall appearance of the vehicle. As a result, a vehicle's interior trim is increasingly becoming an important distinctive feature and should create style and ambiance tailored to the car buyer's desires.

In conjunction hereto, there is also a particular need for lighting solutions which integrate harmoniously into the design of the vehicle's interior. The professional world seeks to be able to realize the most unique lighting of the interior possible in the most easily realized way without excessive restructuring of the interior trim components so as to be able to create different customer-specific styles from a minimalist reduction to the essentials to emphasizing sportiness to creating an atmosphere of luxury. Doing so is based on the recognition that well-conceived and integrated lighting conveys a sense of comfort and produces a strong emo- tional connection to the vehicle. Doing so furthermore improves safe driving at night by illuminating control elements, storage compartments or storage spaces.

In this context, integrating area backlighting into interior trim fittings, particularly in the region of the instrument panel and the center console, is known from the prior art. Such backlighting does, however, have the disadvantage of only being adaptable to a customer's desires at considerable effort. It is moreover not generally possible for backlighting to achieve uniform illumination across the entire area.

According to other solutions, light-emitting diodes are integrated into the interior trim fittings. This approach is likewise unsuited to integrating large-area lighting solutions at the lowest possible expenditure. Using optical fiber for interior lighting is further known. This normally relates to optical fiber having a square surface area which is somewhat larger than the visible area of the interior trim fitting enabled by an aperture. The materials used are for example transparent PMMA (polymethyl methacrylate and/or Plexiglas) or polycarbonate. The light is coupled in through the sides of the optical fiber. Point light sources, usually along one or two opposite sides, feed the optical fiber. The light is transmitted within the optical fiber by total reflection (TIR). To selectively decouple light from the optical fiber, interference points are generated which in- hibit the TIR condition .

The known prior art solutions as briefly described above for personalized lighting of a vehicle interior have in particular the disadvantage that such lighting solutions can only be implemented in the vehicle interior at relatively high expenditure. Moreover, the known lighting solutions often cannot be harmoniously integrated into a vehicle interior's design since additional installation space is thereby required for the components associated with the lighting solution.

Based on this problem as set forth above, a task of the present invention is that there is a need for interior parts and components with which personalized lighting solutions for the interior of a vehicle interior can be realized in the simplest and most cost-effective manner possible.

Another task underlying the present invention is to provide a method for manu- facturing such interior parts and components in an easy and economical way.

SUMMARY

The above-mentioned asks are solved by a component for a vehicle interior ac- cording to independent claims 1, 16 and 20. Further developments of the inventive component are set forth in the pendent claims.

According to one aspect of the present disclosure, the inventive component is configured to be illuminated by a light source providing light. The component preferably comprises a fabric comprising optical fibers configured to transmit light provided by the light source within the optical fibers by total internal reflection. Moreover, the component comprises a panel comprising a first side configured to face the passenger compartment and a second side, and an interface configured to couple the light source to the fabric. The inventive component might comprises at least one of (a) an interior trim panel, (b) a door panel, (c) an instrument panel.

The fabric of the inventive component covers - at least partially - the first side of the panel. In accordance with some embodiments of the present invention, the fabric is wrapped around at least an edge of the panel, wherein at least a portion of the fabric covering the first side is configured to be illuminated.

In accordance with some embodiments disclosed herein, the the optical fibers of the inventive component are configured to prevent total internal reflection to di- rect at least a portion of the light provided by the light source substantially perpendicular to the first side of the panel.

In addition or alternatively, the optical fibers are configured to transmit light provided by the light source around the edge of the panel.

Preferably, the optical fibers are sized and comprised of a material to allow the optical fibers to bend around the edge of the panel and transmit light provided by the light source. In some embodiments disclosed herein, the component further comprises a reflective layer provided between the panel and the fabric configured to reflect light away from the first side of the component, and/or a cover configured to transmit light from the fabric to a surface of the cover; said cover preferably comprising a plurality of holes configured to direct light from the fabric through the cover.

In accordance with some embodiments disclosed herein, the component further comprises an adhesive layer, which is preferably provided between the fabric and the cover. The adhesive layer might be substantially transparent. In some embodiments of the present disclosure the cover comprises at least one of (a) leather, (b) vinyl. With regard to the light source, it is preferred if the light source is coupled to the second side of the panel. In accordance to some embodiments disclosed herein the light source comprises at least one light emitting diode.

In accordance with a further aspect, the invention consist of a component for a vehicle interior providing a passenger compartment configured to be illuminated by a light source providing light. The component preferably comprises a panel comprising a first side configured to face the passenger compartment and a second side, and a fabric coupled to the light source and the panel comprising optical fibers configured to transmit light provided by the light source within the optical fibers by total internal reflection.

Preferably, the optical fibers of the component according to this aspect are configured to prevent total internal reflection to direct at least a portion of the light provided by the light source substantially perpendicular to the first side of the panel.

In some embodiments, the inventive component further comprising a cover configured to transmit light from the fabric through the cover. For this purpose, the cover might comprise a plurality of holes, openings, slits or other characteristics configured to direct light from the fabric through the cover.

In some embodiments of the component according to this aspect, the light source comprises at least one light emitting diode.

The component might comprise at least one of (a) an interior trim panel, (b) a door panel, (c) an instrument panel.

In accordance with a further aspect, the invention consist of a component for a vehicle interior providing a passenger compartment configured to be illuminated by a light source providing light, wherein the component comprises a panel com- prising a first side configured to face the passenger compartment and a second side, and a fabric coupled to the light source and the panel comprising optical fibers configured to transmit light provided by the light source within the optical fibers by total internal reflection. In accordance with this aspect, the optical fibers are arranged in the fabric to illuminate a portion of the fabric corresponding to the arrangement of the fibers in the fabric.

Preferably, the optical fibers of the component according to this aspect are configured to prevent total internal reflection to direct at least a portion of the light provided by the light source substantially perpendicular to the first side of the panel. For this reason, the fabric may be prepared by a process comprising sand- blasting the fabric to prevent total internal reflection in at least a portion of the optical fibers.

In some embodiments of the inventive component the fabric with the optical fibers comprises at least one of (a) a substantially uniform network of optical fi- bers woven into a matrix and (b) a network of optical fibers woven into a pattern providing a shape. The shape preferably comprises a non-uniform shape.

According to another aspect of the present disclosure, an interior trim component for motor vehicles comprises a substrate, a light-conducting fabric layer connect- ed to the substrate and a light source arrangement. The light source arrangement is optically connected to the light-conducting fabric layer and designed to couple light into the light-conducting fabric layer. The light-conducting fabric layer is designed to selectively decouple at least a portion of the coupled light substantially perpendicular to the fabric layer's direction of extension.

The advantages, which can be obtained with the inventive solution are obvious: Using a light-conducting fabric layer as a lighting element ensures the most homogeneous distribution of light possible. In particular, the provision of the fabric layer effects virtually no change in the structural dimension of an interior trim component such that the lighting solution can be integrated into an interior trim component without great effort.

Using a light-conducting fabric layer in particular ensures that the light which is coupled into the light-conducting fabric layer is emitted uniformly over the entire area or over definable subareas of the light-conducting fabric layer, thus producing a homogeneously luminous fabric layer at least in areas. In particular, no fur- ther layers are needed hereto such as e.g. diffusion, reflection or other transparent layers having different refractive indices.

According to some embodiments of the present disclosure, the light-conducting fabric layer can be applied directly onto a substrate so that the light-conducting fabric layer emits the light directly into the interior of the motor vehicle.

The term "substantially perpendicular to the fabric layer's direction of extension" as used herein is to be understood in that the entire light component does not need to be decoupled from the fabric layer exactly perpendicular to the vertical but rather that a large proportion of the light previously coupled into the fabric layer is decoupled within a specific angular range. The angular range is hereby for example 0° to 45° to the surface of the light-conducting fabric layer relative to the vertical .

The fabric layer is preferably designed as a flexible textile planar structure, particularly a nonwoven, whereby this planar structure comprises optical fiber and, if need be, textile fibers. The optical fiber of the fabric layer is thereby designed to transmit previously coupled light within the optical fiber by total reflection (TIR).

Transparent PMMA or polycarbonate are particularly applicable materials for the optical fibers. The respective optical fibers preferably have a diameter of from 0.1 to 0.3 mm, particularly from 0.2 to 0.25 mm. This thereby ensures that the planar structure formed with the optical fibers is of particularly flexible design so that it can be easily placed around corners and edges of the substrate.

The components of the present invention in particular provide for treating at least parts of at least the surface of the textile planar structure facing the A-side of the interior trim component such that interference points inhibiting the TIR condition are produced at least on part of the optical fiber of the textile planar structure.

The term "A-side" as used herein basically means the side facing the visible side of the interior trim component. When the interior trim component is installed, the A-side of the interior trim component, or respectively the A-sides of the individual layers forming the interior trim component, thus correspond(s) in each case to the side facing the interior of the vehicle. In contrast thereto, the term "B-side" is to herein indicate the side of a layer or an element of the interior trim component opposite from the A-side. By at least the surface of the textile planar structure facing in the direction of the A-side of the interior trim component being at least sectionally treated such that interference points which inhibit the TIR condition are produced on at least part of the optical fiber of the planar structure, it becomes possible to selectively decouple light from the optical fibers of the planar structure. Generating interfer- ence points, which is also referred to below as activating the light-conducting fabric layer, results for example from sandblasting areas of the fabric layer and/or planar structure. It is thereby obvious that a selective and sectional activating of the light-conducting fabric layer on the A-side of the fabric layer can produce a predefined or predefinable pattern of interference points. Since the TIR condition is prevented at these interference points, the light coupled into the respective optical fibers is at least partially decoupled at these points.

Alternatively or additionally to a selective sectional activating of the light- conducting fabric layer, it is conceivable the optical fibers to be incorporated into textile fibers in a predefined or predefinable pattern, wherein the fabric layer is then configured as a flexible planar structure comprising optical fibers and textile fibers.

Additionally or alternatively hereto, it is however also conceivable to configure the fabric layer as a flexible textile planar structure, particularly a nonwoven, whereby the planar structure consists of optical fibers and textile fibers, and whereby the percentage of optical fiber per unit area is selected according to a predefined pattern, and in particular varies. It can thus be ascertained that personalized lighting solutions can be realized in a particularly easily realized yet effective manner, whereby a car manufacturer's desired lighting effects can be realized in a particularly economical and simple way. One particularly preferential further development of the inventive interior trim component in which the fabric layer is designed as a flexible textile planar struc- ture comprising optical fiber and textile fiber provides for at least areas of the textile fibers of the textile planar structure to be light-reflecting and substantially opaque to visible light. This can be effected for example by incorporating suitable pigments into the textile fibers and/or by applying a coating.

By at least areas of the textile fibers of the light-conducting fabric layer being light-reflecting and substantially opaque, the light decoupled from the optical fibers of the fabric layer is in areas intensified by the corresponding light reflection relative the textile fibers. In particular, a light pattern produced by the optical fibers of the fabric layer can display increased contrast.

The lighting solution can be integrated into the interior trim component either by the light-conducting fabric layer forming the A-side of the interior trim component or by a surface material layer being disposed on the A-side of the fabric layer which ultimately forms the A-side of the interior trim component. In the first option, in which the light-conducting fabric layer itself forms the A-side of the interior trim component, it is advantageous for the fabric layer to be designed as a flexible textile planar structure and also comprise suitable textile fibers in addition to the optical fibers.

In conjunction hereto, it is of particular advantage for a coating which is at least in parts transparent coating to be provided, same being disposed at least sectionally on the A-side of the fabric layer and which protects the optical fibers of the fabric layer from mechanical damage as well as improves the haptics of the A-side of the trim component.

In the case of the second option of the inventive interior trim component, in which it is not the light-conducting fabric layer, or respectively the light-conducting fabric layer with a coating disposed at least sectionally on the A-side of the fabric layer where applicable, which forms the A-side of the interior trim component but rather a surface material layer disposed on the A-side of the light-conducting fabric layer forms the A-side of the interior trim component, it is provided for the surface material layer to be perforated by a plurality of holes so that at least a portion of the light decoupled from the fabric layer will be directed to the A-side of the interior trim component through the holes of the perforation. A layer made of leather ma- terial or imitation leather or plastic material is for example feasible as the surface material layer.

The respective holes of the perforation, through which at least part of the light decoupled from the fabric layer is directed to the A-side of the interior trim component have a diameter of 1,2 mm to 1,8 mm, and particularly 1,5 mm, so that these holes are not visually noticeable during the daytime and/or when no light is being directed through the holes of the perforation to the A-side of the interior trim component.

The holes of the perforation are preferably incorporated into the surface material layer in a predefined or predefinable pattern. It is hereby conceivable for the number of holes per unit area to be selected according to a predefined pattern and in particular varied . Alternatively or additionally hereto, the diameter of the holes can also be selected according to a predefined pattern as well as varied .

In order to join the surface material layer to the fabric layer in the second variant of the inventive interior trim component, one preferential realization of the inventive solution provides for a preferably transparent adhesive layer to be arranged between the A-side of the fabric layer and the B-side of the surface material layer.

It is however also conceivable in this context for an intermediate layer to be at least sectionally disposed between the A-side of the fabric layer and the B-side of the surface material layer, whereby at least areas of said intermediate layer are transparent and can assume a lens function in order to maximize the portion of light decoupled from the fabric layer and directed through the holes of the surface material layer.

With respect to the light source arrangement, by means of which light is intro- duced into the fabric layer, it is conceivable in accordance with an advantageous further development of the inventive solution for same to be designed so as to couple light of different wavelengths (colors) into predefined or definable areas of the fabric layer. It would for example be conceivable in this context for the light source arrangement to comprise a plurality of preferably separately controllable light sources, particularly LEDs, in order to selectively couple light into the predefined or definable areas of the fabric layer. A solution in which the light source arrangement only comprises a single light source would certainly also be conceivable here, although same is or can be masked in areas.

By providing the light-conducting fabric layer, it is in principle possible to supply different colors to different areas, whereby a clear spatial separation between these areas can be realized . One further development of the latter embodiment provides for the light source arrangement to further comprise a control device so as to be able to selectively control the light sources of the light source arrangement. This selective control is for example realized as a function of predefined events which are detected by means of a sensor device associated with the motor vehicle. For example, it is conceivable for specific light sources of the light source arrangement to be activated upon e.g . opening or closing the vehicle door.

In one preferential realization of the inventive trim part, the fabric layer is wrapped around the substrate (kink angle = 180°) and the light source arrange- ment is arranged on an area of the interior trim component behind the substrate which is not visible from the outside. Doing so efficiently prevents any stray radiation.

Even though the claims cover various embodiments of the inventive component for a vehicle interior, the present disclosure also covers methods for manufacturing such components and/or trim parts.

BRIEF DESCRIPTION OF TH E DRAWINGS In the following, the invention will be described by means of several examples. While the examples include a number of details of the various embodiments of the inventive interior component, not all details shown in the drawings are necessary for defining the invention. Hence, the separate details shown in the drawings can be claimed separately and independently later on. The examples are shown in the drawings, in which :

FIG. 1A is a perspective view of a vehicle having interior parts therein, for example vehicle seats, interior components, interior trim parts and/or interior accessories, wherein at least some of these interior components and parts are configured - in accordance to an exemplary embodiment - to be illuminated by a light source providing light. FIG. I B is a perspective sectional cut view of the vehicle according to

FIG. 1A, wherein the vehicle seats are partly removed . is schematic view of an examplary embodiment of an interior component for a vehicle in accordance with a one aspect of the present invention. is schematic view of an examplary embodiment of an interior component for a vehicle in accordance with another aspect of the present invention. is schematic view of a visible region (A-side) of an examplary embodiment of an interior component for a vehicle in accordance with a another aspect of the present invention. is schematic view of a non-visible region (B-side) of the examplary embodiment according to FIG. 2C. is schematic view of an examplary embodiment of an interior component for a vehicle in accordance with another aspect of the present invention.

FIG. 3A is a fragmentary view of an exemplary vehicle door having a door panel insert, which is configured as an interior component in accordance with an exemplary embodiment of the present invention, wherein the illumination of the door panel insert is switched-off. FIG. 3B is a fragmentary view of an exemplary vehicle door having a door panel insert, which is configured as an interior component in accordance with an exemplary embodiment of the present invention, wherein the door panel insert is illuminated.

FIG. 3C is a fragmentary view of the door panel insert of FIG. 3A.

FIG. 3D is a fragmentary view of the door panel insert of FIG. 3B. FIG. 4A is a fragmentary view of a visible region (A-side) of an interior component according to an exemplary embodiment of the present invention.

FIG. 4B is a fragmentary view of a non-visible region (B-side) of the interior component according to FIG. 4A.

FIG. 4C is a schematic sectional view illustrating an exemplary embodiment of an interior component according to a further embodiment of the present invention.

FIG. 4D is a schematic sectional view illustrating an exemplary embodiment of an interior component according to a further embodiment of the present invention. FIG. 5A is a fragmentary view of a visible region (A-side) of an interior component according to an exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a non-opaque material .

FIG. 5B is a schematic sectional view of a part of a interior component according to a exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a non- opaque material . FIG. 5C is a schematic sectional view of a part of an interior component according to another exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a non- opaque material .

FIG. 5D is a schematic sectional view of a part of an interior component according to another exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a nonopaque material .

FIG. 5E is a schematic sectional view of a part of an interior component according to another exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a nonopaque material .

FIG. 5F is a schematic sectional view of a part of an interior component ac- cording to another exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a nonopaque material . FIG. 5G is a schematic sectional view of a part of an interior component according to another exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a nonopaque material .

FIG. 6 is a schematic sectional view of a part of another interior component according to an exemplary embodiment of the present invention. FIG. 7A is a schematic plan view of a section of a fabric layer for use in interior components according to some exemplary embodiments of the present invention, wherein a plurality of optical fibres is integrated into the fabric layer such that the fabric layer comprises regions with exposed sections of the optical fibres and regions with concealed sections of the optical fibres.

FIG. 7B is a schematic plan view of a section of a fabric layer for use in interior components according to some exemplary embodiments of the present invention, wherein a plurality of optical fibres forms a textile-like layer.

FIG. 8A is a view of a reverse side of a door or instrument panel insert provided with an interior component according to an exemplary embodiment of the present invention. is another perspective view of a part of the door or instrument pan el insert according to FIG. 8A. is an enlarged view of the front side (A-side) of an interior component according to an exemplary embodiment of the present invention.

FIG. 10 is a plan view of a door panel insert configured as an interior component according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE DRAWINGS

Before any embodiments of the invention are explained in detail, it is to be understood that the invention is not limited in its application to the details of con- struction and the arrangement of components set forth in the following description or illustrated in the following drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways.

Moreover, before beginning the detailed description of exemplary embodiments, several general comments are warranted about the applicability and the scope of the present invention. According to exemplary embodiments, a vehicle interior component (e.g., a door panel D, a door panel insert, a trim part of a dashboard, a trim part of a central consol, a floor consol FC, or an instrument panel IP) or a component assembly (e.g ., a vehicle seat assembly ST) is provided that is adapted for use in any variety of applications for a vehicle V (e.g ., automobile, plane, train).

The vehicle seat assembly ST and the vehicle interior components and/or parts D, IP and FC may be provided in locations throughout the vehicle V other than the location shown in FIGS. 1A and I B.

In general, the interior parts or interior components described in this disclosure may be molded articles having one or more localized or discrete areas or portions of softness or cushioning. In some embodiment, the molded articles may be con- figured as a trim part or trim panel for use in the interior I of a vehicle V (e.g ., automobiles such as cars, trucks, buses, and the like; airplanes, boats, etc.).

The interior parts or interior components may be provided with one or more localized or discrete areas or portions of softness or cushioning, which enables the interior parts or components to selectively include areas of softness in areas that are likely to be interfaced by a passenger or other individual without the need to provide cushioning to the entire trim part. In this manner, the areas of cushioning may be optimized based on the typical passenger experience. In accordance with the present disclosure, the interior part or component is configured to be illuminated by a light source providing light. One advantageous feature of such an interior part or component is that the outer appearance of the interior part or component is aesthetically improved in an as simple as possible, but simultaneously reliable and stable manner.

The interior part or component described in this disclosure may be employed in a variety of applications, and is generally applicable with any application wherein it would be beneficial to provide a part or component, for example a trim part, having one or more localized or discrete areas or portions, which can be illuminated by means of a backlight. As mentioned above, in some embodiments, the interior component may be a trim, for example, a trim panel, a vehicle seat assembly or any other vehicle interior part for use in a vehicle.

While some of the disclosed embodiments may be described as a vehicle trim part, such as a door panel, the features of the disclosed embodiments are equally applicable with other applications such as other panels, molded articles and components and other office, home, or educational, industrial, commercial, or consumer products which employ decorative areas or region, which need to be illuminated .

Referring to FIGS. 2A to 2E, examplary embodiments of an interior component for a vehicle in accordance with various aspects of the present invention are schematically illustrated. The interior components schematically illustrated in FIGS. 2A to 2E are configured to be illuminated by a light source providing light. Preferably, the light source is part of a light source arrangement 1.

The interior components illustrated in FIGS. 2A to 2E comprise a panel 3 compris- ing a first side ("A-side") configured to face the passenger compartment and a second side ("B-side"). Furthermore, a fabric 2a, 2b is provided, said fabric 2a, 2b comprising optical fibers 10 configured to transmit light provided by the light source within the optical fibers 10 by total internal reflection. Also, an interface is provided, said interface being configured to couple the light source to the fabric 2a, 2b. The interface may consist of one or more optical couplings 11 in oder to couple light from the light source or light source arrangement 1 to the optical fibers 10, which are preferably arranged as a bundle in the area of the interface.

The interior components illustrated in FIGS. 2A to 2E are characterized in that the fabric 2a, 2b at least partially covers the first side 8b of the panel 3.

In more detail, in accordance with the exemplary embodiments of the inventive interior component, the fabric 2a, 2b is wrapped around at least an edge of the panel 3. Moreover, at least a portion 7 of the fabric 2a, 2b covering the first side 8b of the panel 3 is configured to be illuminated by means of the light source or light source arrangement 1.

The panel 3 preferably consisting of a relatively rigid material, such as for exam- pie a plastic material, a natural fiber material, metal or mixtures thereof, and is preferably not transparent to visible light.

In accordance with some embodiments of the present disclosure, the panel 3 is preferably made of thermoplastic polyolefin material, homopolymer or copolymer, comprising optionally mineral fillers or reinforcement by glass fibers or natural fibers, or styrenic material, as for example ABS-PC (acrylonitrile-butadiene- styrene and polycarbonate), optionally reinforced by glass fibers. These materials have a stiffness enabling to fulfill a supporting function. Preferable, the panel 3 substantially determines a two or three-dimensional form, which substantially corresponds to the form of, for example, an interior trim component to be provided with the illumination function obtained by the inventive components. In this regard, the panel 3 may exhibit a three-dimensional structure formed by means of, for example, a deep-drawing or injection molding process or another such similar forming process.

The fabric 2a, 2b is preferably configured as a light-conducting fabric layer, which can be wrapped around at least an edge of the panel 3 such that the fabric 2a, 2b may cover at least partly the first side (A-side) of the panel 3; i.e. the side of the panel 3 pointing toward in the direction identified by reference numeral 8b in FIGS. 2A to 2C.

The second side 8a (B-side) of the panel 3 is opposide to the first side 8b and thus defines the backside of the panel 3. In FIGS. 2D and 4B, the second side (B- side) of the panel 3 is identified by reference numeral 8a.

As indicated, for example, in FIGS. 2A to 2E, the (light-conducting) fabric 2a, 2b can cover the entire A-side of the panel 3; it is however of course also conceivable for the fabric 2a, 2b to only cover parts of the A-side of panel 3. In the embodiment depicted in FIGS. 2A to 2E, the fabric 2a, 2b is designed to be flexible such that the fabric 2a, 2b can be wrapped around at least an edge of the panel 3. For this purpose, in some embodiments of the inventive component disclosed herein, the the optical fibers 10 of the fabric 2a, 2b are preferably sized and comprised of a material to allow the optical fibers to bend around the edge of the panel 3 and transmit light provided by the light source or light source arrangement 1.

The optical fibers 10 are preferably made of plastic material (particularly PMMA or polycarbonate) and each have a diameter preferably no greater than 0.3 mm so that the fabric 2a, 2b is as flexible as possible and can in particular wrap around the edges of the panel 3. It is thereby possible for the fabric 2a, 2b to cover the entire side of the panel 3 pointing toward the vehicle interior I such that not only can an attractive visual appearance be achieved but favorable haptics will also be provided .

In accordance with the embodiments disclosed herein and illustrated, for example in FIGS. 2A to 2E, the optical fibers 10 of the fabric 2a, 2b are configured to prevent total internal reflection to direct at least a portion of the light provided by the light source substantially perpendicular to the first side of the panel 3. Moreover, the optical fibers 10 are preferably configured to transmit light provided by the light source around the edge of the panel 3.

In the embodiment schematically illustrated in FIG. 2A, the optical fibers 10 are arranged in the fabric 2a, 2b to illuminate a (predefined) portion 7 of the fabric 2a, 2b. This is preferably achieved by a corresponding arrangement of the fibers 10 in the fabric 2a, 2b.

In more detail, the fabric 2a utilized in the embodiment according to FIG. 2A is preferably a woven or nonwoven structure comprising textile fibers 16 (see FIG. 7A) in addition to the optical fibers 10.

More generally and as indicated in FIG. 7A, the fabric 2a utilized in the embodiment according to FIG. 2A is preferably composed of fibers 16 made of a textile carrier material and the optical fibers 10. The fibers made of a textile carrier material may be fabricated, for example, from the group consisting of plant fibres, fibres of animal origin, mineral fibres of geological origin, chemical fibres, fibres of synthetic polymers, inorganic chemical fibres, and imitation leather.

The optical fibers 10 and the textile fibers 16 are preferably woven or otherwise interrelated with one another such that the optical fibers 10 are partially exposed with respect to the A-side of the fabric 2a.

The areas of the A-side of the fabric 2a, in which the optical fibers 10 are exposed, are predefined and serve as light-emitting areas 7 of the fabric 2a. In the other areas of the A-side of the fabric 2a, the optical fibers 10 are covered by the textile fibers 16 of the fabric 2a . Accordingly, in these areas, no light can be emitted by the optical fibers 10.

The optical fibers 10 integrated in the fabric 2a of FIG. 2A or integrated in the fabric 2b of FIG. 2B are preferably configured to prevent total internal reflection to direct at least a portion of the light provided by the light source substantially perpendicular to the first side (A-side) of the panel 3. In this way, the areas 7 of the A-side of the fabric 2a, 2b, in which the optical fibers 10 are exposed, can be illuminated by means of the light emitted by the light source and coupled in the optical fibres 10 at the interface between the light source and the optical fibres 10.

In some embodiments of the present disclosure, the fabric 2a, 2b is at least par- tialy sandblasted in order to prevent total internal reflection in at least a portion of the optical fibers 10. This allows that the the optical fibers 10 integrated in the fabric 2a, 2b are at least partially configured to prevent total internal reflection to direct at least a portion of the light provided by the light source substantially perpendicular to the first side of the panel 3. Of course, there are also other measures conceivable in order to prevent total internal reflection in at least a portion of the optical fibers 10. In this context, any other mechanical and/or chemical treatment of the optical fibers 10 are apllieable. In some embodiments disclosed herein, the optical fibers 10 integrated into the fabric 2a, 2b are sectionally activated so that light-emitting areas 7 are selective- ly formed in the fabric 2a, 2b. The optical fibers 10 integrated in the fabric 2a, 2b are preferably activated by suitably (mechanically or chemically) treating at least the surface of the fabric 2a, 2b facing toward the A-side of the component, e.g . an interior trim component. This treatment generates interference points at least on part of the optical fibers 10 of the fabric 2a, 2b, which inhibit the TIR condition, such that at least part of the light coupled into the fabric layer can escape again at these points.

As already indicated, the optical fibers lOof the fabric 2a, 2b can be activated, for example, by preferably sectional sandblasting.

As schematically indicated in particular in FIG. 2A, it is particularly conceivable to selectively activate the optical fibers 10 in certain areas 7 of the fabric 2a in order to thereby produce a specific and predefined pattern.

In addition or alternatively, it would also be conceivable to incorporate, e.g . weave in or integrate, the optical fibers 10 into the textile fibers 16 of the fabric 2a according to a predefined or predefinable pattern so that the light-emitting areas 7 of the fabric 2a are predetermined by the position of the optical fibers 10 in the fabric 2a.

In order to increase the luminous intensity emitted in the direction of the A-side of the interior component in the exemplary embodiment schematically illustrated in FIG. 2A, it is in particular conceivable for a reflective layer (not shown in FIG. 2A) to be at least sectionally provided between the panel 3 and the (light-conducting) fabric 2a in order to reflect light decoupled from the fabric 2a toward the A-side of the interior component.

Such a reflective layer is schematically indicated in the embodiment of FIG. 5C, where an intermediate layer 4 is provided between the panel 3 and the fabric 2b. This intermediate layer 4 is at least partly reflective such that light decoupled from the fabric 2b is reflected toward the A-side of the interior component. This can be achieved, for example, by providing the intermediate layer 4 with a metallized layer or with reflective particles so that the intermediate layer 4 serves as a reflective layer. Returning to the embodiment illustrated in FIG. 2A, it is to be noted that it is advantageous for at least areas of the textile fibers 16 of the fabric 2a to be light- reflecting and substantially opaque to visible light. This can be effected, for example, by suitably incorporating pigments into the textile fibers 16 and/or by ap- plying an opaque coating on the textile fibers 16.

In order to optimize the haptics of the interior component schematically illustrated in FIG. 2A and particularly to protect the optical fibers 10 in the fabric 2a from mechanical damage, it is advantageous for a coating or protective layer 9 to be further disposed at least sectionally on the A-side of the fabric 2a, whereby at least areas of the coating or protective layer 9 is to be of transparent design.

As depicted schematically in FIG. 2A, a light source arrangement 1 is used to couple light into the individual optical fibers of the fabric 2a . It is hereby particularly conceivable for the light source arrangement 1 to be configured such that light of different wavelengths (colors) can be coupled into predefined or definable areas of the fabric 2a. To this end, it is expedient for the light source arrangement 1 to comprise a plurality of preferably separately controllable light sources. The light source arrangement 1 is preferably controlled by a control device, and particularly preferably as a function of predefined events detected by means of a sensor device associated with the vehicle, in which the component is integrated .

To block stray radiation from the light source arrangement 1, it is advantageous for the fabric 2a, 2b to wrap around the panel 3 and for the light source arrangement 1 to be disposed on an area of the interior component behind the panel 3 which is not visible from the outside, i.e. from the A-side.

In the exemplary embodiment of the inventive interior component depicted in FIG. 2A, the fabric 2a is preferably joined to the panel 3 by an adhesive layer (not shown in FIG. 2A). When a coating or protective layer 9 is provided on the A-side of the fabric 2a, it is likewise advantageous for the coating or protective layer 9 to be joined to the A-side of the fabric 2a by means of an adhesive layer, whereby the adhesive layer here (as well as coating or protective layer 9) is to be of at least partially transparent design. The following will reference FIG. 2B in describing another exemplary embodiment of the inventive component.

The structure of this examplary embodiment of the inventive interior component corresponds substantially to the structure of the embodiment described above with reference to the FIG. 2A, whereby in the embodiment according to FIG. 2B, however, it is not the A-side of the fabric 2b which is directly visible; i.e. the A- side forming the interior component. Instead, in the exemplary embodiment schematically illustrated in FIG. 2B, the A- side of the interior component is formed by a surface material layer 5. This surface material layer 5 is, for example, a plastic film, a layer of imitation leather or also a layer of leather which on the whole is preferably of non-transparent design.

In accordance with some embodiments disclosed herein, the surface material layer 5 serves as a cover. This cover (surface material layer 5) preferably comprises at least one of leather and vinyl . As already indicated, the surface material layer 5 preferably serves as a cover. Accordingly, the term "surface material layer" and the term "cover" as used herein shall have the same technical meaning.

In accordance with some embodiments disclosed herein, the surface material lay- er or cover 5 is configured to transmit light from the fabric 2b to a surface of the surface material layer / cover 5. In this regard, it is preferred when the surface material layer / cover 5 comprises a plurality of holes 6 configured to direct light from the fabric 2b through the surface material layer / cover 5. More particularly, the component according to the exemplary embodiments described above with reference to FIG. 2B preferably further comprises an adhesive layer or bond preferably adhesive bond 13 provided between the fabric 2b and the surface material layer /cover 5. The surface material layer / cover 5 is preferably affixed to the A-side of the fabric 2b, or - as indiceted in FIG. 2B - to the A-side of an intermediate layer 4 af- fixed to the A-side of the fabric 2b respectively, by means of an adhesive layer (not shown in FIG. 2B).

As already indicated with reference to the embodiment schematically illustrated in FIG. 5C, the intermediate layer 4 may serve as a reflective layer in order to re- felect light L in the direction of the A-side of the component.

FIG. 5C also shows that the intermediate layer 4 is preferably joined to the light- conducting fabric 2b by means of an adhesive layer 13.

In some embodiments disclosed herein, the intermediate layer 4 is preferably a layer of at least in part transparent design, with which the light emitted from the fabric 2a, 2b is at least sectionally focused . It is hereby also conceivable for at least areas of the intermediate layer 4 to be colored so as to sectionally change the color of the light emitted by the interior component.

In contrast to the exemplary embodiment according to FIG. 2A, the exemplary embodiment according to FIG. 2B provides for preferably fully activating the optical fibers 10 of the fabric 2b.

Because a perforation (holes 6) has been introduced into the surface material layer or cover 5, a specific light-emitting pattern can be formed on the A-side of the surface material layer / cover 5, and thus on the A-side 8b of the interior trim component.

Specifically, a plurality of recesses, slits and/or holes 6 are hereto formed in the surface material layer 5, through which at least a portion of the light decoupled from the fabric 2b is directed to the A-side 8b of the interior component.

The recesses, slits and/or holes holes 6 of the perforation preferably have a diameter which is small enough so that the holes 6 will not be visually noticeable and/or not visible during the daytime; i.e. when no light is being directed through the holes 6 to the A-side 8b of the interior component. It is hereby conceivable for the respective recesses, slits and/or holes 6 of the perforation to have a diameter of 1,2 mm to 1,8 mm, and particularly 1,5 mm.

By the recesses, slits and/or holes 6 of the perforation being incorporated into the surface material layer / cover 5 in a predefined or predefinable pattern, a specific light pattern can be realized on the A-side 8b of the interior component .

It is hereto conceivable for the number of recesses, slits and/or holes 6 per unit area to be selected according to a predefinable pattern, and particularly to be varied; i.e. the density varied, so that different intensities can be realized .

As indicated in FIG. 7B, the fabric 2b utilized, for example, in the embodiment illustrated in FIG. 2B, may be formed as a woven web structure consisting of optical fibers 10 and preferably textile fibers 16.

As for the fabric 2a of FIG. 7A, the textile fibers 16 of the fabric 2b illustrated in FIG. 7B may be made of a textile carrier material . The fibers made of a textile carrier material may be fabricated, for example, from the group consisting of plant fibres, fibres of animal origin, mineral fibres of geological origin, chemical fibres, fibres of synthetic polymers, inorganic chemical fibres, and imitation leather.

Contrary to the fabric 2a illustrated in FIG. 7A and utilized, for example, in the embodiment of FIG. 2A, in the embodiment of the fabric 2b illustrated in FIG. 7B, all the optical fibers 10 of the fabric 2b can be activated . This is due to the fact that, in the examplary embodiment according to FIG. 2B, the surface material layer / cover 5 and particularly the perforation provided in the surface material layer / cover 5 assumes the function of an exit aperture. This is illustrated in more detail in FIGS. 5B, C, D, E, and G.

For example, the holes 6 in the surface material layer /cover 5 are arranged in wave-like patterns or in overlapping wave patterns, as suggested in FIG. 2B. Other patterns can however also be realized hereto; even a point-like pattern (snowflake pattern) is in particular conceivable. The embodiment schematically illustrated in FIG. 2C mostly corresponds to the embodiment shown in FIG. 2A; however, in the embodiment schematically illustrated in FIG. 2C, the light source arrangement 1 of FIG. 2A is rearranged such as to be fully(visibly) covered by the panel 3. For this purpose, the light source arrangement 1 is attached to the B-side 8a of the panel 3.

FIG. 2D is a back view of the interior component illustrated in FIG. 2C. As can be seen from FIG. 2D, the light source arrangement 1 can be easily arranged on the B-side 8a of the panel 3 such as to be not visible from the A-side of the interior component.

The embodiment illustrated in FIG. 2E mostly corresponds to the embodiment of FIG. 2A; however, instead of using one (single) light source arrangement 1, the interior component of FIG. 2 E is provided with a plurality (here: two) light source arrangements 1 to indepentenly couple light (preferably of different wavelengths) in dedicated members of the plurality of optical fibers 10. In this way, different light emitting areas 7a, 7b can be realized on the A-side of the interior component. In this connection, it is to be noted that the term "different light emitting areas" means different areas 7a, 7b on the A-side of the interior component, which can be illuminated independently from each other and, inparticular, also with different colours and/or light intensities. Accordingly, it is conceivable in this regard that the diferent light source arrangements 1 are also controlled independently from each other and, in particular different from each other.

The inventive components as dscribed above may be incorporated, for example, into a vehicle door D having a door panel insert 22. In this regard, reference is made to FIG. 3A, which is a fragmentary view of an exemplary vehicle door D having a door panel insert 22, which is configured as an interior component in accordance with exemplary embodiments of the present invention. In more detail, in the illustration according to FIG. 3A, the light source for the the illumination of the door panel insert is switched-off. Hence, it is apparent that - in a stage when the light source for the the illumination of the door panel insert is switched-off - there is merely a slight (visibly detectable) different in the outer appearance between the areas 7a of the door panel insert 22, which can be illuminated, and the areas 9 of the door panel insert 22, which cannot be illuminated .

This difference is also apparent from FIG. 3B, which shows the door panel insert 22 in accordance with FIG. 3A, whereas, however, the door panel insert 22 is now internally illuminated such that there is a better contrast between the illuminated areas 7a and the other (non-illuminated) areas 9 on the A-side of the door panel insert 22.

In this regard, reference is also made to FIGS. 3C and 3D, which respectively show a fragmentary view of the door panel insert 22 of FIG. 3A and FIG. 3B.

FIG. 4A is a fragmentary view of a visible region (A-side) of an interior component (here: door panel insert 22) in accordance with a further exemplary embodiment of the present invention. From a structural and functional point of view, this exemplary embodiment mostly corresponds to the embodiment illustrated in and described, for example, with reference to FIG. 2A.

In more detail, in the fragmentary view of FIG. 4A, the difference in the outer appearance between the areas 7 of the door panel insert 22, which can be illumi- nated, and the areas 9 of the door panel insert 22, which cannot be illuminated, is illustrated.

In particular, FIG. 4A shows the visible region (A-side) of an interior component 22 having areas 9, where no light is emitted, and areas 7 where light is emitted.

FIG. 4B is a fragmentary view of a non-visible region (B-side) of the interior component according to FIG. 4A.

As illustrated in FIG. 4B, a light source arrangement 1 can be easily arranged on the backside of the interior component 22 such as to be invisible from the A-side of the component. Also, an interface is provided, said interface being configured to couple the light emitted from the light source arrangement 1 to a fabric 2a. The interface may consist of one or more optical couplings 11 in oder to couple light from the light source or light source arrangement 1 to optical fibers 10 of the fabric 2a, which are preferably arranged as a bundle in the area of the interface.

In the embodiment illustrated in FIGS. 4A to 4D, the fabric 2a is wrapped around at least an edge of a panel 3 of the component. This is indicated, in particular in FIGS. 4C and 4D.

Moreover, at least a portion (see areas 7 indicated in FIG. 4A) of the fabric 2a covering the first side of the panel 3 is configured to be illuminated by means of the light source or light source arrangement 1.

FIG. 4C is a schematic sectional view along line 4C-4C in FIG. 4A.

As illuistrated in FIG. 4C, the component comprises a panel 3, which substantially determines a two or three-dimensional form. Also,a fabric 2a is provided, which is preferably configured as a light-conducting fabric layer, which can be wrapped around at least an edge of the panel 3 such that the fabric 2a may cover at least partly the first side 8b (A-side) of the panel 3.

The second side (B-side) of the panel 3 is opposide to the first side and thus de- fines the backside of the panel 3. In FIG. 4C, the second side (B-side) of the panel 3 is identified by reference numeral 8a.

In the embodiment depicted in FIG. 4C, the fabric 2a is designed to be flexible such that the fabric 2a can be wrapped around at least an edge of the panel 3. For this purpose, the the optical fibers 10 of the fabric 2a are preferably sized and comprised of a material to allow the optical fibers to bend around the edge of the panel 3 and transmit light provided by the light source or light source arrangement 1. Moreover, the fabric 2a is fixed to the panel 3by means of an adhesive layer or bond preferably adhesive bond 13 provided between the fabric 2a and the the panel 3. FIG. 4D is a schematic sectional view illustrating an exemplary embodiment of an interior component according to a further embodiment of the present invention.

This embodiment mostly corresponds to the embodiment illustrated in FIG. 4C; however, contrary to the embodiment of FIG. 4C, in the sectional view according to FIG. 4D, textile fibers 16 cover most of the optical fibers 10 of the fabric 2a, thereby definig the areas 9, in which no light can be illuminated from the optical fibers 10 of the fabric 2a. As also indicated in FIG. 4D, in at least one area of the A-side of the interior component, the fabric 2a, or at least one of the plurality of optical fibers 10 integrated into the fabric 2a, is exposed with respect to the A-side of the interior component. This can be achieved, for example, by passing at least one fibre 10 of the plurality of optical fibers 10 integrated into the fabric 2a through the layer defined by the textile fibres 16, which cover most of the optical fibers 10 of the fabric 2a . In this regard, the at least one fibre 10, which passes through the layer defined by the textile fibres 16, may define an area 7 as indicated in FIG. 4A, i.e. an area 7 of the first side of the panel 3 which is configured to be illuminated by means of the light source or light source arrangement 1.

FIG. 5A is a fragmentary view of a visible region (A-side) of an interior component (here: insert 24 for an interior trim component) according to another exemplary embodiment of the present invention. In this embodiment, an outer surface material layer 5 of the interior component 24, which forms the A-side of the interior component 24, is made of a nonopaque material .

In contrast to the exemplary embodiments according to FIGS. 4A to 4D, the ex- emplary embodiment according to FIG. 5A provides for preferably fully activating the optical fibers 10 of a fabric 2b of the interior component 24. The fabric 2b of the interior component 24 illustrated in FIG. 5A will be described below in more detail with reference to FIGS. 5B to 5G. Because a perforation (holes 6) has been introduced into the surface material layer or cover 5 of of the interior component 24, a specific light-emitting pattern can be formed on the A-side of the surface material layer / cover 5, and thus on the A-side of the interior component 24.

Specifically and as indicated in FIG. 5A, a plurality of recesses, slits and/or holes 6 are formed in the surface material layer 5, through which at least a portion of the light decoupled from the fabric 2b is directed to the A-side of the interior component 24.

The recesses, slits and/or holes holes 6 of the perforation preferably have a diame- ter which is small enough so that the holes 6 will not be visually noticeable and/or not visible during the daytime; i.e. when no light is being directed through the holes 6 to the A-side of the interior component 24.

It is hereby conceivable for the respective recesses, slits and/or holes 6 of the per- foration to have a diameter of 1,2 mm to 1,8 mm, and particularly 1,5 mm.

By the recesses, slits and/or holes 6 of the perforation being incorporated into the surface material layer / cover 5 in a predefined or predefinable pattern, a specific light pattern can be realized on the A-side of the interior component 24.

As indicated in FIG. 7B, the fabric 2b utilized, for example, in the embodiment illustrated in FIGS. 5A to 5G, may be formed as a woven web structure consisting of optical fibers 10 and preferably textile fibers 16. The textile fibers 16 of the fabric 2b illustrated in FIG. 7B may be made of a textile carrier material . The fi- bers made of a textile carrier material may be fabricated, for example, from the group consisting of plant fibres, fibres of animal origin, mineral fibres of geological origin, chemical fibres, fibres of synthetic polymers, inorganic chemical fibres, and imitation leather. In the embodiments of the interior component 24 illustrated in FIGS. 5B to 5G, preferably all the optical fibers 10 of the fabric 2b are activated . On the other hand, in the examplary embodiments according to FIGS. 5B to 5G, a surface material layer / cover 5 and particularly a perforation provided in the surface material layer / cover 5 assumes the function of an exit aperture. This is illustrated with the arrows indicated by the reference numeral L in FIGS. 5B, C, D, E, and G. For example, the holes 6 in the surface material layer /cover 5 are arranged in wave-like patterns or in overlapping wave patterns, as suggested in FIG. 5A. Other patterns can however also be realized hereto; even a point-like pattern (snowflake pattern) is in particular conceivable.

In more detail, FIG. 5B is a schematic sectional view of a part of a interior component according to an exemplary embodiment of the present invention, wherein an outer surface material layer 5 of the interior component, which forms the A- side of the interior component, is made of a non-opaque material .

The interior component according to FIG. 5B mostly correspond to the interior component schematically illustrated in FIG. 2B.

Hence, in the exemplary embodiment schematically illustrated in FIG. 5B, the A- side 8b of the interior component is formed by a surface material layer 5. This surface material layer 5 is, for example, a plastic film, a layer of imitation leather or also a layer of leather which on the whole is preferably of non-transparent design. In accordance with some embodiments disclosed herein, the surface material layer 5 serves as a cover. This cover (surface material layer 5) preferably comprises at least one of leather and vinyl .

As already indicated, the surface material layer 5 preferably serves as a cover. Accordingly, the term "surface material layer" and the term "cover" as used herein shall have the same technical meaning.

In accordance with the embodiment schematically illustrated in FIG. 5B, the surface material layer or cover 5 is configured to transmit light L from the fabric 2b to a surface of the surface material layer / cover 5. In this regard, it is preferred when the surface material layer / cover 5 comprises a plurality of holes 6 configured to direct light L from the fabric 2b through the surface material layer / cover 5. More particularly, the component according to the exemplary embodiment schematically illustrated in FIG. 5B further comprises an adhesive layer or bond pref- erably adhesive bond 13 provided between the fabric 2b and the surface material layer /cover 5. Also, an adhesive bond 13 is provided between the fabric 2b and the panel 3 of the interior component. Specifically, a plurality of holes 6 are hereto formed in the surface material layer 5, through which at least a portion of the light L decoupled from the fabric 2b is directed to the A-side of the interior component.

The holes 6 of the perforation preferably have a diameter which is small enough so that the holes 6 will not be visually noticeable and/or not visible during the daytime; i.e. when no light is being directed through the holes 6 to the A-side 8b of the interior component.

Although not shown in FIG. 5B, the interior component is also provided with a light source arrangement 1 for coupling light L in the optical fibers 10 of the fabric 2b. The light source arrangement 1 is preferably arranged on the B-side 8a of the interior component.

FIG. 5C is a schematic sectional view of a part of an interior component according to another exemplary embodiment of the present invention, wherein an outer su rface material layer 5 of the interior component, which forms the A-side 8b of the interior component, is made of a non-opaque material .

The interior component according to FIG. 5C mostly correspond to the interior component schematically illustrated in FIG. 5B; however, in the embodiment illustrated in FIG. 5C, an intermediate layer 4 is preferably joined to the A-side of the panel 3 by means of an adhesive layer 13. The intermediate layer 4 is preferably a layer of at least in part reflective design, with which the light emitted from the fabric 2b is at least sectionally focused.

FIG. 5D is a schematic sectional view of a part of an interior component according to another exemplary embodiment of the present invention, wherein an outer surface material layer 5 of the interior component, which forms the A-side 8b of the interior component, is made of a non-opaque material . The interior component according to FIG. 5D mostly correspond to the interior component schematically illustrated in FIG. 5B; however, in the embodiment illustrated in FIG. 5D, a spacer / foam layer 14 is provided between the fabric 2b and the surface material layer / cover 5 such as to optimize the haptics of the interior component. The spacer / foam layer 14 is preferably at least partly translucent.

Ads indicated in FIG. 5D, the spacer / foam layer 14 is preferably fixed to the fabric 2b and the surface material layer / cover 5 by means of an adhesive 13 provided between the spacer / foam layer 14 and the fabric 2b on the one hand, and by means of an adhesive 13 provided between the spacer / foam layer 14 and the surface material layer / cover 5 on the other hand.

FIG. 5E is a schematic sectional view of a part of an interior component according to another exemplary embodiment of the present invention. This exemplary em- bodiment mostly correspond to a combination of the embodiments illustrated in FIGS. 5C and 5D.

In more detail and as indicated in FIG. 5E, an intermediate layer 4 is preferably arranged between the panel 3 of the interior component and the fabric 2b. The intermediate layer 4 is joined to the panel 3 and the fabric 2b by means of adhesive layers 13. The intermediate layer 4 is preferably a layer of at least in part reflective design, with which the light emitted from the fabric 2b is at least sec- tionally focused. FIGS. 5F and 5G are schematic sectional views of a part of an interior component according to another exemplary embodiment of the present invention, wherein an outer surface material layer of the interior component, which forms the A-side of the interior component, is made of a non-opaque material . In more detail, the embodiment illustrated in FIG. 5F mostly correspond to the embodiment shown in FIG. 5D; however, in FIG. 5F a section of the interior component is shown where the surface material layer 5 of the interior component is not provided with any hole 6 thereby blocking light from back-illuminating the A- side of the interior component in this section. FIG. 5F further shows the arrangement of the light source arrangement 1 on the B-side of the interior component. Light emitted from the light source arrangement 1 is coupled to the optical fibers 10 of the fabric 2b and then guided - via a corner of the interior component to the A-side area of the component.

As also indicated in FIG. 5F, the spacer / foam layer 14 and the surface material layer 5 do preferably not cover the entire B-side of the interior component. Rather, these layers 14, 5 are preferably interrupted and fixed (by means of an adhesive 13) to the fabric 2b at the B-side of the interior component.

FIG. 5G mostly correspond to FIG. 5F; however, in the illustration of FIG. 5G, no olight source arrangement 1 is shown.

Moreover, in the embodiment illustrated in FIG. 5G the surface material layer 5 of the interior component is provided with holes 6. In more detail, a plurality of holes 6 are hereto formed in the surface material layer 5, through which at least a portion of the light L decoupled from the fabric 2b is directed to the A-side of the interior component. FIG. 6 is a schematic sectional view of a part of another interior component according to an exemplary embodiment of the present invention. In the exemplary embodiment schematically illustrated in FIG. 6, the A-side of the interior component is formed by a surface material layer 5. This surface material layer 5 is, for example, a plastic film, a layer of imitation leather or also a layer of leather which on the whole is preferably of non-transparent design. Hence, the surface material layer 5 serves as a cover. This cover (surface material layer 5) preferably comprises at least one of leather and vinyl .

In accordance with the embodiment schematically illustrated in FIG. 6, the sur- face material layer or cover is configured to transmit light from a fabric 2 to a surface of the surface material layer / cover 5. In this regard, it is preferred when the surface material layer / cover 5 comprises a plurality of holes 6 configured to direct light from the fabric 2 through the surface material layer / cover 5. More particularly, the component according to the exemplary embodiment schematically illustrated in FIG. 6 further comprises an adhesive layer or bond prefer- ably adhesive bond 13 provided between the fabric 2 and the surface material layer /cover 5. Also, an adhesive bond 13 is provided between the fabric 2 and a panel 3 of the interior component. Although not shown in FIG. 6, the interior component is preferably provided with a light source arrangement for coupling light in optical fibers of the fabric 2. This light source arrangement is preferably arranged on the B-side of the interior component. In the embodiment illustrated in FIG. 6, a spacer / foam layer 14 is provided between the fabric 2 and the surface material layer / cover 5 such as to optimize the haptics of the interior component. The spacer / foam layer 14 is preferably at least partly translucent. The spacer / foam layer 14 is preferably fixed to the fabric 2 and the surface material layer / cover 5 by means of an adhesive 13 provid- ed between the spacer / foam layer 14 and the fabric 2 on the one hand, and by means of an adhesive 13 provided between the spacer / foam layer 14 and the surface material layer / cover 5 on the other hand.

Although not illustrated in FIG. 6, it is also conceivable to provide the interior component with an intermediate or reflective layer, which can be joined to the A- side of the panel 3 by means of an adhesive layer. This intermediate layer is preferably a layer of at least in part reflective design, with which the light emitted from the fabric 2 is at least sectionally focused. FIG. 7A is a schematic plan view of a section of a fabric layer for use in interior components according to some exemplary embodiments of the present invention, wherein a plurality of optical fibres 10 is integrated into the fabric 2a such that the fabric 2a comprises regions with exposed sections of the optical fibres 10 and regions with concealed sections of the optical fibres 10. This fabric layer 2a is, for example, applicable in the embodiment illustrated in FIG. 2A.

More generally and as indicated in FIG. 7A, the fabric 2a is preferably composed of fibers 16 made of a textile carrier material and the optical fibers 10. The fibers made of a textile carrier material may be fabricated, for example, from the group consisting of plant fibres, fibres of animal origin, mineral fibres of geological origin, chemical fibres, fibres of synthetic polymers, inorganic chemical fibres, and imitation leather.

The optical fibers 10 and the textile fibers 16 are preferably woven or otherwise interrelated with one another such that the optical fibers 10 are partially exposed with respect to the A-side of the fabric 2a.

The areas of the A-side of the fabric 2a, in which the optical fibers 10 are exposed, are predefined and serve as light-emitting areas of the fabric 2a. In the other areas of the A-side of the fabric 2a, the optical fibers 10 are covered by the textile fibers 16 of the fabric 2a . Accordingly, in these areas, no light can be emitted by the optical fibers 10.

FIG. 7B is a schematic plan view of a section of a fabric layer 2b for use in interi- or components according to some exemplary embodiments of the present invention, wherein a plurality of optical fibres 10 forms a textile-like layer. This fabric layer 2a is, for example, applicable in the embodiment illustrated in FIG. 2B.

As indicated in FIG. 7B, the fabric 2b may be formed as a woven web structure consisting of optical fibers 10 and preferably textile fibers 16. The textile fibers 16 of the fabric 2b illustrated in FIG. 7B may be made of a textile carrier material . The fibers made of a textile carrier material may be fabricated, for example, from the group consisting of plant fibres, fibres of animal origin, mineral fibres of geological origin, chemical fibres, fibres of synthetic polymers, inorganic chemical fibres, and imitation leather.

Contrary to the fabric 2a illustrated in FIG. 7A and utilized, for example, in the embodiment of FIG. 2A, in the embodiment of the fabric 2b illustrated in FIG. 7B, preferably all of the optical fibers 10 of the fabric 2b are activated .

FIG. 8A is a view of a reverse side of a door or instrument panel insert 22 provided with an interior component 2 according to an exemplary embodiment of the present invention. As illustrated, the instrument panel insert 22 is provided with a plurality of fastening means and stand offs 20 for fixing the instrument panel in- sert 22. FIG. 8B is another perspective view of a part of the door or instrument panel insert 22 according to FIG. 8A. As indicated, the fabric of the component for illuminating the A-side of the door or instrument panel insert 22 is wound around a corner or flap 18 of the door or instrument panel insert 22, such that a control unit of the component and/or a light source arrangement of the component (both not illustrated in FIGS. 8A and 8B can be arranged at the B-side 3 of the door or instrument panel insert 22.

In FIGS. 8A and 8B, the reference numeral 15 indicates a vehicle door. Moreover, the door panel insert 22 is attached to this vehicle door 15.

FIG. 9 is an enlarged view of the front side (A-side) of an interior component according to an exemplary embodiment of the present invention. Hence, it is apparent that the front side (A-side) of an interior component comprises areas 7a, which can be illuminated, and areas 5, which cannot be illuminated.

The areas 7a correspond to the areas of the A-side of a fabric 2a, in which optical fibers 10 are exposed (see FIG. 7A). These areas are predefined and serve as light-emitting areas of the fabric 2a. In the other areas of the A-side of the fabric 2a, the optical fibers 10 are covered, in particular, by textile fibers 16 of the fabric 2a. Accordingly, in these areas, no light can be emitted by the optical fibers 10. Hence, these areas correspond to the areas indicated by reference numeral 5 in FIG. 9.

FIG. 10 is a plan view of a door panel insert 22 configured as an interior component according to an exemplary embodiment of the present invention. As shown, the front side (A-side) of an interior component 22 comprises areas 7a, which can be illuminated, and areas 5, which cannot be illuminated. The areas 7a correspond to the areas of the A-side of a fabric 2a, in which optical fibers 10 are exposed (see FIG. 7A). These areas are predefined and serve as light-emitting areas of the fabric 2a. In the other areas of the A-side of the fabric 2a, the optical fibers 10 are covered, in particular, by textile fibers 16 of the fabric 2a. Accord- ingly, in these areas, no light can be emitted by the optical fibers 10. Hence, these areas correspond to the areas indicated by reference numeral 5 in FIG. 10. The invention is not limited to the embodiments of the inventive interior trim component depicted in the drawings but rather yields from a synopsis of all the features disclosed herein together.