DE202017101205U1 - Illumination system for a license plate - Google Patents

Abstract

A vehicle, comprising: a license plate positioned at a rear of the vehicle, the license plate defining an individualized part and an approval part; a trim piece positioned over the license plate and including a lighting system, comprising: a waveguide extending the length of the license plate; a light source optically coupled to the waveguide and configured to emit light into the waveguide; and an optical component configured to be optically coupled to the waveguide.

Description

FIELD OF THE INVENTION

The present disclosure relates generally to vehicle lighting systems, and more particularly to vehicle lighting systems for a rear of the vehicle.

BACKGROUND OF THE INVENTION

Lighting systems used in vehicles can provide a unique and attractive viewing experience. It is thus desirable to incorporate such lighting systems into parts of vehicles to provide accent and functional lighting.

BRIEF SUMMARY OF THE INVENTION

In accordance with one aspect of the present disclosure, a vehicle is provided that includes a tag positioned at a rear of the vehicle. The indicator defines an individualized part and an approval part. A trim piece is positioned over the license plate and includes a lighting system that includes a waveguide that extends the length of the license plate. A light source is optically coupled to the waveguide and configured to emit light into the waveguide. An optical component is configured to be optically coupled to the waveguide.

According to another aspect of the present disclosure, there is provided a vehicle including a license plate positioned at a rear of the vehicle and a lighting system positioned proximate to the license plate and including an aperture defining waveguide. A first light source is optically coupled to one end of the waveguide and configured to emit light into the waveguide, and an optical component is configured to be inserted into the aperture and to interact with light in the waveguide.

In accordance with still another aspect of the present disclosure, a method is provided for illuminating a mark, directing a first light from a light source into an end of a waveguide, illuminating a first portion of a mark using the light, filtering a portion of the light using a light source optical component positioned in the waveguide and illuminating a second part of the label using the filtered light.

These and other aspects, objects and features of the present invention will be understood and appreciated by those skilled in the art upon reading the following specification, claims and appended drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings:

1 a rear perspective view of a vehicle, which is equipped with a lighting system according to an embodiment;

2A a bottom perspective view of a trim piece of the vehicle according to an embodiment;

2 B an enlarged bottom perspective view of the trim piece of the vehicle according to an embodiment;

2C a cross-sectional view of the trim piece along the line IIC-IIC of

2A according to an embodiment;

2D a cross-sectional view along the line IID-IID of 2A according to an embodiment;

3 a cross-sectional view taken along the line III-III of 2A according to another embodiment;

4 an elevational view of the license plate and the trim piece according to an embodiment; and

5 a block diagram of the vehicle and the lighting system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

As required, detailed embodiments of the present disclosure are disclosed herein. It should be understood, however, that the disclosed embodiments are merely exemplary of the disclosure, which may be embodied in various and alternative forms. The figures do not necessarily follow a detailed design, and some schematic illustrations may be exaggerated or minimized to illustrate a functional overview. The specific structural and functional details disclosed herein are thus not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art, such as: the present disclosure is to be used in various ways.

As used herein, the term "and / or," when used in an enumeration with two or more items, means that any of the enumerated items may be used alone, or that any combination of two or more of the enumerated items is employed can be. For example, if a composition is described as containing Components A, B and / or C, Composition A alone, B alone, C alone, A and B in combination, A and C in combination, B and C in combination or A , B and C in combination.

With reference to the 1 - 5 denotes the reference number 10 Generally a vehicle that is a license plate 14 at the rear of the vehicle 10 is positioned. The license plate 14 defines an individualized part 14A and an approval part 14B , A piece of clothing 18 is above the mark 14 positioned and includes a lighting system 22 , The lighting system 22 includes a waveguide 26 that covers part of the license plate 14 extends. A first light source 30 is optically with the waveguide 26 coupled and for emitting light into the waveguide 26 configured. An optical component 34 is configured with the waveguide 26 to be optically coupled.

Regarding 1 includes the vehicle 10 a recessed area 40 at which the license plate 14 is arranged. Over the recessed area 40 is a forehead area 44 positioned on which the trim piece 18 located. It is understood that the trim piece 18 at the forehead area 44 , in the reset area 40 or combinations thereof. The license plate 14 is in the reset area 40 the trunk lid 48 positioned. The garment piece 18 is positioned so that the lighting system 22 the license plate 14 , the reset area 40 and generally the rear of the vehicle 10 can illuminate. Although the vehicle 10 as a limousine is shown and the license plate 14 on a trunk lid 48 Similarly, the disclosure may be applied to a tailgate of an off-highway vehicle or a liftgate of a truck without departing from the teachings herein and the spirit of the disclosure. In the example shown, the indicator 14 an individualized license plate or a desired license plate 14 be. The individualized license plate 14 can the individualized part 14A and the approval part 14B include. The individualized part 14A may correspond to a symbol or sign that a school (eg a university) visited by the vehicle owner, a specific concern (eg organ donation, wildlife, veterans, children, etc.) or any other selected by the owner customization. The individualized part 14A may include colors and symbols that are not in the approval part 14B be used. The approval part 14B may include several letters or numbers used to identify the owner and the registration of the vehicle 10 are designed. The approval part 14B may also include one or more registration marks, such as alphanumeric indicia used to indicate proper registration of the vehicle 10 be used. According to various state and federal laws, the approval part is required 14B of the license plate 14 possibly a certain level of lighting or visibility. Although the trim piece 18 and / or the lighting system 22 at the rear of the vehicle 10 it is understood that these are on a front or sides of the vehicle 10 can be used without departing from the teachings provided herein.

Now with respect to the 2A - 2D can the trim piece 18 also a camera 50 involve behind the vehicle 10 ( 1 ) shows. The camera 50 Can be used to drive a driver of the vehicle 10 with a view behind the vehicle 10 be supplied (eg during the resetting and / or parking of the vehicle 10 ). A cover 54 is at a bottom of the panel piece 18 positioned. The cover 54 is under the lighting system 22 positioned so that the cover 54 between the lighting system 22 and the license plate 14 located. The cover 54 can vary over the length of the license plate 14 or only part of the license plate 14 extend. The cover 54 may be formed of a transparent and / or translucent material. Exemplary materials of the cover 54 may include plastics, glasses and combinations thereof. In some embodiments, the cover 54 include a colored material. The cover 54 can have one or more optics 58 involve changing the light coming from the lighting system 22 is emitted, are configured. In the illustrated embodiment, the optics 58 Cushion lenses, but they can also reflector cavities, Fresnel lenses and / or other types of optics 58 include. The optics 58 can be evenly or in a patterned arrangement over the cover 54 be distributed. The optics 58 can radiate or spread light from the lighting system 22 over the license plate 14 and the rear of the vehicle 10 support. Furthermore, the cover 54 one or more characters in the cover 54 include (eg etched, scratched or otherwise arranged) to produce certain lighting or aesthetics effects.

The lighting system 22 is in the garment 18 positioned. In the example shown, the lighting system is 22 in a housing 60 positioned. The housing 60 can through the cover 54 be excluded and may be in the garment 18 further than the cover 54 extend. As explained above, the lighting system includes 22 the waveguide 26 , the first light source 30 , a second light source 62 and the optical component 34 , The first and the second light source 30 . 62 may include a light bulb, a light emitting diode, or other types of light generation. The first and the second light source 30 . 62 may be configured to emit white light, colored light, invisible light (eg, ultraviolet), or other electromagnetic spectra. The first and the second light source 30 . 62 can each optically with one end of the waveguide 26 be coupled so that light coming from the first and the second light source 30 . 62 is emitted into the waveguide 26 occurs and is spread along this. The first and the second light source 30 . 62 can be done using fasteners 68 be held in position. The connecting elements 68 can through the case 60 positioned and configured to have both the first and second light sources 30 . 62 to keep them as well as to provide them with energy.

The waveguide 26 may include an optical fiber, a photonic crystal fiber and / or a light tube. In light pipe embodiments of the waveguide 26 For example, the light pipe may be solid or hollow, or have intermittent structure (eg, parts that are hollow and parts that are solid). The light tube may include a transparent material such as a polymer, a glass, or combinations thereof. The waveguide 26 may include a number of scattering locations (eg, materials having a refractive index other than the waveguide, reflective materials, air bubbles, etc.) that are disposed throughout the length of the light tube and configured to diffuse light from the light tube. The number and concentration of scattering sites can vary over the length of the waveguide 26 vary so that a uniform illumination is achieved. For example, a lower concentration of scattering sites may be near the first and second light sources 30 . 62 be arranged and with increasing distance from the light sources 30 . 62 increase. The waveguide 26 may be a single piece or may in the example shown in a first waveguide part 26A and a second waveguide part 26B be divided. The waveguide 26 can be through one or more carriers 64 be supported, which are configured to the waveguide 26 in the case 60 to hold in position. The waveguide 26 can be an aperture 66 between the first waveguide part 26A and the second waveguide part 26B define. The aperture 66 is dimensioned such that it is the optical component 34 receives.

The optical component 34 can be a substrate 74 include a first surface 78 and a second surface 82 Are defined. The substrate 74 may consist of a polymer, metal, ceramic or glass material. In various examples, the substrate 74 be transparent, translucent or opaque. The first and / or the second surface 78 . 82 are perpendicular to the license plate 14 , One or more coatings may be on the first and / or second surface 78 . 82 be arranged. The coatings on the first and second surfaces 78 . 82 may be different or similar or may include some similar properties (eg reflectivity). The coatings may be reflective, semitransparent or transflective or may be used to filter light in the waveguide 26 be configured. In reflective embodiments, the reflective coating may include a metal film, a metal foil, a vacuum metallized coating, and / or a light colored surface (eg, a white lacquer). In transmissive embodiments, the coating may be a lacquer or a metal on the substrate 74 is arranged. For example, the transmissive coating may include a metal film, a metal foil, and / or a vacuum metallized coating. The transmissive coating may be configured to allow less than about 1% of light, less than about 5% of light, less than about 10% of light, less than about 20% of light, less than about 30% of light Less than about 40% of light or less than about 50% of light incident on the coating to the substrate 74 passes. In transflective embodiments of the coating, the coatings may allow some of the light to pass through the substrate 74 and reflect another part of the light back into the waveguide 26 (For example, in the first or the second waveguide part 26A . 26B ). For example, the part of the light that is reflected, regardless of the wavelength (eg all colors and wavelength ranges are reflected) or depending on the wavelength (eg some colors, but not others are reflected or visible light is reflected, but not visible light transferred). Furthermore, the substrate 74 act as a color filter (eg by being colored so that only certain colors or light colors are allowed to be transferred). The use of transmissive, transflective and / or color filtering embodiments of the coatings may result in filtered light (eg, the light lacks one or more wavelengths of light) or unfiltered light (eg, essentially all wavelengths) that pass through the waveguide 26 distributed and emitted by it.

The optical component 34 is sized and shaped to fit in the aperture 66 of the waveguide 26 fits. The optical component 34 and / or the waveguide 26 may define one or more attachment features (eg, hooks, lips, edges, snap features, interlocking members) configured to be the optical component 34 to hold in position. In still other embodiments, the optical component 34 configured to be in the aperture 66 to be installed with friction or interference fit. The positioning of the optical component 34 in the aperture 66 couples the optical component 34 optically with the waveguide 26 so that the coatings of the optical component 34 with the light in the waveguide 26 can interact. In reflective embodiments of the coatings, the optical component interacts 34 with the light by bringing the light to its source (eg the light source 30 or the second light source 62 ) is reflected back. In reflective embodiments, the optical component 34 the first waveguide part 26A from the second waveguide part 26B isolate. For transmissive embodiments of the optical component 34 interacts with the optical component 34 with the light being reflected by part of the light, while the rest is reflected by the optical component 34 is transmitted. In color-filtered embodiments, the optical component interacts 34 with the light by absorbing part of the light and transferring the rest. It is understood that transflective embodiments of the optical component 34 by positioning a reflective coating on one side of the substrate 74 (eg the first surface 78 ) and a permeable coating on the other side (eg the second surface 82 ) can be achieved.

In the examples shown, the waveguide extends 26 of the lighting system 22 through the housing 60 , The housing 60 can have an inner surface 60A define the inside to the lighting system 22 is curved. The inner surface 60A may include a coating to improve or support the illumination of the license plate 14 is configured. The inner surface 60A For example, it may include a reflective coating similar to that used in conjunction with the reflective coating of the optical component 34 described for reflecting light from the waveguide 26 is emitted, down to the cover 54 is configured. In other embodiments, the inner surface 60A include a phosphorescent material, as described in more detail below, which is configured to emit light as soon as it is exposed to light from the waveguide 26 is emitted, is charged. Furthermore, the waveguide 26 a reflective structure 90 include that at the top of the waveguide 26 or on one of the covers 54 opposite side of the waveguide 26 is positioned. The reflective structure 90 may be similar to that associated with the reflective coatings of the optical component 34 (eg, metal coatings, light colored surfaces, etc.), or it may be different. The reflective structure 90 is configured to light that from the waveguide 26 is emitted back into the waveguide 26 to reflect, allowing the light to cover 54 and the license plate 14 emitted.

Again with respect to the 2A -D can or may be in examples where the inner surface 60A the phosphorescent coating includes the housing 60 and / or the coating can be made by dispersing one or more afterglow phosphorescent materials in a polymer matrix to form a homogeneous mixture using a variety of methods. For example, the housing 60 by dispersing the phosphorescent materials into a solid solution (homogeneous mixture in a dry state) which may be contained in a polymer matrix formed by extrusion, injection molding, compression molding, calendering, thermoforming, etc. The phosphorescent materials may include a binder (eg, polymer) and on the inner surface 60A of the housing 60 and can be applied by painting, screen printing, flexographic printing, spraying, die coating, dip coating, roller coating, comma coating and / or any other method known in the art. It will be understood that the phosphorescent materials as described herein are equally applicable to the art 14 (eg on the text, the inscription, the symbols, etc.) or the reflective structure 90 can be applied to the visibility of the vehicle 10 and / or the license plate 14 to increase.

The afterglow phosphorescent materials may be defined as being capable of storing an activation emission and emitting light gradually (ie, a perceptible glow) over a period of several minutes or hours once an activation emission is no longer present. The cooldown may be considered to be the time between the end of the excitation by the activation emission and the time when the light intensity of the phosphorescent structure is below a minimum visibility of 0.32 mcd / m ² falls, be defined. Visibility of 0.32 mcd / m ² is about 100 times the sensitivity of the dark-adapted human eye, which corresponds to a lighting baseline level commonly used by those of ordinary skill in the art.

The phosphorescent phosphorescent materials may, according to at least one embodiment, be operable to emit light after a period of about 10 minutes at or at a higher intensity of 0.32 mcd / m ² . In addition, the phosphorescent phosphorescent materials may be operable to provide light after a period of greater than about 30 minutes, greater than about 60 minutes, greater than about 2 hours, greater than about 5 hours, greater than about 10 hours, or greater than about 24 Hours with a higher or at an intensity of 0.32 mcd / m ² to emit. Accordingly, the phosphorescent phosphors may emit light from the waveguide in response to excitation by multiple excitation sources emitting an activation emission, including but not limited to ambient light (eg, the sun) 26 (eg the first and / or the second light source 30 . 62 ), Light sources near the vehicle 10 (eg light poles or parking garage lamps) and / or any other in the vehicle or outside the vehicle 10 include arranged light source, continuously lit. In some embodiments, the wavelength of the light passing through the phosphorescent material of the inner surface 60A is emitted for charging a phosphorescent material of the mark 14 be used. It is understood that the phosphorescent material of the inner surface 60A from the license plate 14 can differ (eg in color, intensity, length of afterglow, etc.).

The periodic absorption of the activation emission from the excitation sources may provide a substantially sustained charge of the afterglow phosphorescent materials to provide consistent passive illumination. For example, the waveguide 26 be pulsed or otherwise periodically activated to charge the phosphorescent materials so that the inner surface 60A and / or the license plate 14 provide a constant or varying level of emitted phosphorescent light. In a specific example, the waveguide 26 be pulsed while the vehicle 10 is in an off state (ie, if permitted by the vehicle battery charge) so that the flag 14 can stay lit even when the vehicle 10 is off.

The afterglow phosphorescent materials may correspond to alkaline earth aluminates and silicates, for example, doped di-silicates, or any other compound capable of emitting light for a period of time once an activation emission is no longer present. The afterglow phosphorescent materials may be doped with one or more ions which may correspond to rare earth elements, for example Eu ²⁺ , Tb ³⁺ and Dy ³⁺ . A polymeric material of the coatings may include between about 0.1% to about 25.0% of the second phosphorescent material in either weight or mole fraction. In embodiments, the phosphorescent coating on the inner surface 60A The coating can be a phosphorescent material in the range of about 30% to about 55%, a liquid carrier medium in the range of about 25% to about 55%, a polymer resin in the range of about 15% to about 35%, a stabilizing additive in the range from about 0.25% to about 20% and performance enhancing additives ranging from about 0% to about 5%, each based on the weight of the composition. Furthermore, the phosphorescent material of the mark 14 contain the same or a similar composition.

The phosphorescent material may, in one embodiment, have a translucent white color when it is unlit. Once the phosphorescent material receives the activation emission of a particular wavelength, the phosphorescent material can emit white light, blue light, red light, green light, or combinations of these. The light emitted by the phosphorescent material, and therefore the characteristic 14 and / or the inner surface 60A , may have a desired brightness, so that the individualized part 14A and / or the approval part 14B is visible or are. In one embodiment, the blue emitting phosphorescent material may be Li ₂ ZnGeO ₄ and may be prepared by a high temperature solid state reaction method or by any other convenient method and / or process. The blue afterglow may last for a period of two to eight hours and may result from an activation emission and dd transitions of Mn ²⁺ ions.

In an alternative embodiment, 100 parts of a commercially available solvent-borne polyurethane, such as Mace Resin 107-268 with 50% solid polyurethane in toluene / isopropanol, 125 parts of a cyan, luminescent phosphor such as the performance indicator PI-BG20, and 12, 5 parts of a dye solution containing 0.1% Lumogen Yellow F083 in dioxolane are mixed to obtain a low rare earth content phosphorescent structure or can be used in the phosphorescent coating. It is understood that the compositions provided herein are non-limiting examples. Thus, any phosphor known in the art may be used for use as a phosphorescent material or phosphorescent structure without departing from the teachings provided herein. In addition, it is contemplated that any long-lasting phosphor known in the art may be used without departing from the teachings provided herein.

Additional information regarding the production of long lasting luminescent materials is in U.S. Patent No. 8,163,201 by Agarwal et al. entitled "HIGH-INTENSITY, PERSISTENT PHOTOLUMINESCENT FORMULATIONS AND OBJECTS, AND METHODS FOR CREATING THE SAME", filed Apr. 24, 2012, the entire disclosure of which is hereby incorporated by reference. For additional information regarding phosphorescent structures with a luminescent effect, see U.S. Patent No. 6,953,536 by Yen et al, entitled "LONG PERSISTENT PHOSPHORS AND PERSISTENT ENERGY TRANSFER TECHNIQUE", filed October 11, 2005; the U.S. Patent No. 6,117,362 by Yen et al, entitled "LONGPERSISTENCE BLUE PHOSPHORS", filed September 12, 2000; and the U.S. Patent No. 8,952,341 by Kingsley et al., entitled "LOW RARE EARTH MINERAL PHOTOLUMINESCENT COMPOSITIONS AND STRUCTURES FOR GENERATING LONG-PERSISTENT LUMINESCENCE", filed on Feb. 10, 2015, all of which are hereby incorporated by reference in their entirety.

Additionally or alternatively, the phosphorescent materials may be internal surface 60A , the license plate 14 or the reflective structure 90 having a structure that includes, is mixed with or includes one or more photoluminescent materials. Such photoluminescent materials can have energy-converting elements with phosphorescent or fluorescent properties. For example, the photoluminescent material may include organic or inorganic fluorescent dyes, including rylenes, xanthenes, porphyrins, and phthalocyanines, or combinations of these. Additionally or alternatively, the photoluminescent material may include phosphors from the group of Ce-doped garnets, such as YAG: Ce. The photoluminescent material may also be formulated to have a Stokes shift resulting in the conversion of visible or non-visible light to visible light having an emission spectrum that is expressed in a desired color, which may vary depending on the lighting application. Such a photoluminescent material may have limited persistence (eg, less than about 10 minutes, less than about 5 minutes, less than about 1 minute, or no human perceivable afterglow). The photoluminescent material can be activated by the same or a different activation emission than the afterglowing phosphorescent materials. It should be understood that any description that includes the phosphorescent materials may be substituted for the photoluminescent materials without departing from the teachings herein and the spirit of the disclosure.

Now referring to 3 is an alternative embodiment of the lighting system 22 and the garment 18 displayed. In the illustrated embodiment, the cover 54 ( 2A -D) with the waveguide 26 replaced so that the waveguide 26 is an "A-surface" component or to the outside of the vehicle 10 is exposed. The waveguide 26 can be a light coupling 98 define the waveguide 26 optically with the first and the second light source 30 . 62 coupled. The waveguide 26 can define a flat surface that becomes the mark 14 shows and is emitted by the light. Such an embodiment may be advantageous because the light coming from the waveguide 26 is emitted, not through the cover 54 run and risk a potential loss of intensity. Such embodiments may be the reflective structure 90 include that on the waveguide 26 is positioned as explained above.

Now referring to 4 is the one through the lighting system 22 provided lighting to illuminate the license plate 14 configured. The light from the waveguide 26 gets from the garment 18 directed down to a substantially uniform illumination to the license plate 14 provide. The use of the optical component 34 Can be used to divide the lighting into an individualized lighting 106 and a registration light 110 be used. The registration lighting 110 and the individualized lighting 106 may each have different colors, intensities, lighting patterns, etc., based on the light passing through the first and second light sources 30 . 62 is provided. For example, the individualized light 106 be configured to the individualized part 14A of the license plate 14 to illuminate in a colored light (eg a school or concern's color), and the approval light 110 can be configured to the approval part 14B in white Light to illuminate. Furthermore, the illumination intensity of the registration lighting 110 greater than, less than or equal to that of the individualized illumination 106 be. The use of the waveguide 26 and / or the optics 58 the cover 54 can or can provide a uniform and consistent light across the indicator 14 deploy without creating shadows.

Regarding 5 is a block diagram of the vehicle 10 shown in which the trim piece 18 is implemented. The vehicle 10 includes a controller 118 with the first and the second light source 30 . 62 is in communication. The control 118 can a memory 122 with instructions contained therein, by a processor 126 the controller 118 be executed include. The control 118 may be the first and the second light source 30 . 62 via an energy source 130 that are in the vehicle 10 is located, supplying electrical energy. In addition to this, the controller 118 be configured to the light output of the first and the second light source 30 . 62 (and thus the light output of the waveguide 26 ) based on feedback provided by one or more vehicle control modules 134 is received, such as inter alia, a body control module, a motor control module, a steering control module, a brake control module or the like and / or a combination thereof. By controlling the light output of the first and second light sources 30 . 62 For example, the waveguide may be illuminated in a variety of colors and / or patterns to provide an aesthetic appearance to the license plate 14 and / or the rear of the vehicle 10 or may provide a designated viewer with vehicle information.

The processor 126 can be used to run color lighting routines in memory 122 are stored, configured. A user and / or driver of the vehicle 10 can or can be a user interface 156 use to specify which color routine to run. The user can enter what kind of optical component 34 in the waveguide 26 is introduced, so that the correct color lighting routine is performed. Based on the selected color lighting routine and the type of optical component 34 in the waveguide 26 is introduced, the processor can 126 the second and / or the first light source 62 . 30 control so that they emit white light, colored light or no light. For example, if a color filter example of the optical component 34 is selected, the processor can 126 the second light source 62 control so that it emits white light, and focus on the optical component 34 leave unwanted light colors from the white light filter out so that the second waveguide part 26B a white colored registration lighting 110 emitted while the first waveguide part 26A the individualized lighting 106 in the color that was not filtered out of the white light emitted. In another example, the processor 126 be configured to a color illumination routine based on a use of reflective examples of the optical component 34 perform. For example, if the user enters the user interface device 156 indicates that the optical component is reflective, the processor may 126 the second light source 62 Control to allow white light to go on / off the registration light 110 emitted, and the first light source 30 control, so that they have colored light, the color of the individualized lighting desired 106 corresponds, emitted. For transmissive embodiments of the optical component 34 can the processor 126 be configured to execute a color lighting routine configured to accept colors from the second light source 62 and the first light source 30 present, in the first waveguide part 26A to mix to create a unique (eg user-defined) color. Additionally or alternatively, the processor may 126 be configured to perform one or more standard color lighting routines, such as providing color or white lighting when a key fob is near the vehicle 10 is detected when the trunk lid 48 is raised or other predefined events (eg, a person standing near a rear of the vehicle 10 is detected for a predetermined period of time). In yet other embodiments, the processor 126 the first and the second light source 30 . 62 control so that both emit white light, leaving the mark 14 completely lit with white light.

For purposes of describing and defining the present teachings, it is noted that the terms "substantially" and "approximately" are used herein to represent the inherent level of uncertainty attributed to any quantitative comparison, value, quantitative measurement, or other representation can be. The terms "substantially" and "approximately" are also used herein to represent the degree to which a quantitative representation may differ from a given reference without causing a change in the basic functionality of the subject matter.

It should be understood that variations and modifications may be made to the above structure without departing from the concepts of the present invention, and further, it should be understood that such concepts may be pointed out by the following claims, unless expressly stated otherwise by these language claims.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely 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.

Cited patent literature

• US 8163201 [0034]
• US 6953536 [0034]
• US 6117362 [0034]
• US 8952341 [0034]

Claims (16)

A vehicle comprising: a license plate positioned at a rear of the vehicle, the license plate defining an individualized part and an approval part; a trim piece positioned over the license plate and including a lighting system comprising: a waveguide extending the length of the mark; a light source optically coupled to the waveguide and configured to emit light into the waveguide; and an optical component configured to be optically coupled to the waveguide. The vehicle of claim 1, wherein the optical component is inserted in an aperture in a plane between the individualized part and the approval part. The vehicle of claim 1 or 2, wherein the optical component comprises: a substrate defining a first and a second surface; and a coating positioned on the first and / or second surface. Vehicle according to claim 3, wherein the substrate is at least partially permeable. Vehicle according to claim 3 or 4, wherein the first and / or the second surface of the optical component is perpendicular to the license plate or are. Vehicle according to one of claims 3 to 5, wherein the coating of the optical component comprises a color filter. A vehicle according to any one of claims 3 to 6, wherein the coating of the optical component comprises a vacuum metallized coating. Vehicle according to one of claims 1 to 7, wherein the optical component is at least partially transflective. The vehicle of any one of claims 1 to 8, wherein the trim piece further comprises: a cover positioned between the waveguide and the tag, the cover comprising a plurality of optics. A vehicle comprising: a flag positioned at a rear of the vehicle; and a lighting system positioned near the license plate and comprising: a waveguide defining an aperture; a first light source optically coupled to one end of the waveguide and configured to emit light into the waveguide; and an optical component configured to be inserted into the aperture and to interact with the waveguide. The vehicle of claim 10, further comprising: a second light source optically coupled to the waveguide. The vehicle of claim 11, wherein the first light source and the second light source are optically coupled to the waveguide at opposite sides of the aperture. The vehicle of any of claims 10 to 12, wherein the optical component optically isolates a portion of the waveguide from another portion of the waveguide. The vehicle of any one of claims 10 to 13, wherein the waveguide further comprises: a reflective structure positioned at an upper surface of the waveguide. A vehicle according to any one of claims 10 to 14, wherein the waveguide defines a flat surface facing the license plate. A vehicle according to any one of claims 10 to 15, wherein the light source is a white light source and the second light source is a colored light source.

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